�ݺ�ߣshows by User: SusmitaAdhikari

�ݺ�ߣshows by User: SusmitaAdhikari / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: SusmitaAdhikari / Tue, 26 Apr 2016 09:51:43 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: SusmitaAdhikari White Paper: Real-Time Monitoring of Passive Optical Networks /slideshow/white-paper-realtime-monitoring-of-passive-optical-networks/61361833 d-5134whitepaper-real-timemonitoringpassiveopticalnetworks-160426095143
In this paper, we delve into the basics of existing monitoring technology and discuss an interesting in-service real-time monitoring solution that provides instantaneous root cause of the fault without any influence on data traffic. Furthermore, applications of this novel technology are also illustrated.]]>
In this paper, we delve into the basics of existing monitoring technology and discuss an interesting in-service real-time monitoring solution that provides instantaneous root cause of the fault without any influence on data traffic. Furthermore, applications of this novel technology are also illustrated.]]> Tue, 26 Apr 2016 09:51:43 GMT /slideshow/white-paper-realtime-monitoring-of-passive-optical-networks/61361833 SusmitaAdhikari@slideshare.net(SusmitaAdhikari) White Paper: Real-Time Monitoring of Passive Optical Networks SusmitaAdhikari In this paper, we delve into the basics of existing monitoring technology and discuss an interesting in-service real-time monitoring solution that provides instantaneous root cause of the fault without any influence on data traffic. Furthermore, applications of this novel technology are also illustrated. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/d-5134whitepaper-real-timemonitoringpassiveopticalnetworks-160426095143-thumbnail.jpg?width=120&height=120&fit=bounds" /> In this paper, we delve into the basics of existing monitoring technology and discuss an interesting in-service real-time monitoring solution that provides instantaneous root cause of the fault without any influence on data traffic. Furthermore, applications of this novel technology are also illustrated.

White Paper: Real-Time Monitoring of Passive Optical Networks from Susmita Adhikari Joshi

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0 White Paper: Evolving Technolgies for Mobile Front and Backhauling /slideshow/d-5143reva-white-paperevolving-technolgies-for-mobile-front-and-backhaulinghs/61361434 d-5143-rev-160426094211
While fibers are mostly being deployed in the backhaul networks, a new approach of building flexible mobile networks is being pushed forward where fiber is also used from the base station to the antenna, which is called fronthaul.]]>
While fibers are mostly being deployed in the backhaul networks, a new approach of building flexible mobile networks is being pushed forward where fiber is also used from the base station to the antenna, which is called fronthaul.]]> Tue, 26 Apr 2016 09:42:11 GMT /slideshow/d-5143reva-white-paperevolving-technolgies-for-mobile-front-and-backhaulinghs/61361434 SusmitaAdhikari@slideshare.net(SusmitaAdhikari) White Paper: Evolving Technolgies for Mobile Front and Backhauling SusmitaAdhikari While fibers are mostly being deployed in the backhaul networks, a new approach of building flexible mobile networks is being pushed forward where fiber is also used from the base station to the antenna, which is called fronthaul. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/d-5143-rev-160426094211-thumbnail.jpg?width=120&height=120&fit=bounds" /> While fibers are mostly being deployed in the backhaul networks, a new approach of building flexible mobile networks is being pushed forward where fiber is also used from the base station to the antenna, which is called fronthaul.

White Paper: Evolving Technolgies for Mobile Front and Backhauling from Susmita Adhikari Joshi

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0 White Paper-Evolution from 10Gbps to 100Gbps for a Metro Network-hs /slideshow/white-paperevolution-from-10gbps-to-100gbps-for-a-metro-networkhs/61361053 d-5116-whitepaper-evolutionfrom10gto100gforametronetworkhs-160426093305
Overlaying flourishing 10 Gb/s services with additional co-propagating 10 Gb/s channels in different colors, or wavelengths, is already common practice. Network operators eager to increase capacity have begun overlaying 40 Gb/s channels onto available fiber without leasing more dark fibers as the best pragmatic approach. With the advent of 100G technology, the interest is now shifting from 40G to 100G installations.]]>
Overlaying flourishing 10 Gb/s services with additional co-propagating 10 Gb/s channels in different colors, or wavelengths, is already common practice. Network operators eager to increase capacity have begun overlaying 40 Gb/s channels onto available fiber without leasing more dark fibers as the best pragmatic approach. With the advent of 100G technology, the interest is now shifting from 40G to 100G installations.]]> Tue, 26 Apr 2016 09:33:05 GMT /slideshow/white-paperevolution-from-10gbps-to-100gbps-for-a-metro-networkhs/61361053 SusmitaAdhikari@slideshare.net(SusmitaAdhikari) White Paper-Evolution from 10Gbps to 100Gbps for a Metro Network-hs SusmitaAdhikari Overlaying flourishing 10 Gb/s services with additional co-propagating 10 Gb/s channels in different colors, or wavelengths, is already common practice. Network operators eager to increase capacity have begun overlaying 40 Gb/s channels onto available fiber without leasing more dark fibers as the best pragmatic approach. With the advent of 100G technology, the interest is now shifting from 40G to 100G installations. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/d-5116-whitepaper-evolutionfrom10gto100gforametronetworkhs-160426093305-thumbnail.jpg?width=120&height=120&fit=bounds" /> Overlaying flourishing 10 Gb/s services with additional co-propagating 10 Gb/s channels in different colors, or wavelengths, is already common practice. Network operators eager to increase capacity have begun overlaying 40 Gb/s channels onto available fiber without leasing more dark fibers as the best pragmatic approach. With the advent of 100G technology, the interest is now shifting from 40G to 100G installations.

White Paper-Evolution from 10Gbps to 100Gbps for a Metro Network-hs from Susmita Adhikari Joshi

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0 100G and Beyond DC Interconnect: �Present and Future /slideshow/100g-and-beyond-dc-interconnect-present-and-future/60906627 hscuboethernet100gandbeyonddcworldwebsite-160414100412
The insatiable desire for more capacity and faster datarate arising from the explosion in bandwidth-intense applications necessitates deployment of higher capacity WDM systems in both inside datacenter and metro datacenter interconnects systems. This demand for higher datarates is reflected by the numerous standardization and study groups commenced in the last couple of years. While the standardization scrutinizes the requirements for smooth migration for a datacenter interconnect with distances of upto 40km, the upgrade to high capacity DC metro access networks (beyond 40km), where no standardization exists, needs to address the economic viability together with greater space, power and bandwidth efficiency requirements. This presentation focuses on both of these areas and elucidates the current trends and evolving technologies to deal with the dynamically shifting landscape of DCI. ]]>
The insatiable desire for more capacity and faster datarate arising from the explosion in bandwidth-intense applications necessitates deployment of higher capacity WDM systems in both inside datacenter and metro datacenter interconnects systems. This demand for higher datarates is reflected by the numerous standardization and study groups commenced in the last couple of years. While the standardization scrutinizes the requirements for smooth migration for a datacenter interconnect with distances of upto 40km, the upgrade to high capacity DC metro access networks (beyond 40km), where no standardization exists, needs to address the economic viability together with greater space, power and bandwidth efficiency requirements. This presentation focuses on both of these areas and elucidates the current trends and evolving technologies to deal with the dynamically shifting landscape of DCI. ]]> Thu, 14 Apr 2016 10:04:12 GMT /slideshow/100g-and-beyond-dc-interconnect-present-and-future/60906627 SusmitaAdhikari@slideshare.net(SusmitaAdhikari) 100G and Beyond DC Interconnect: �Present and Future SusmitaAdhikari The insatiable desire for more capacity and faster datarate arising from the explosion in bandwidth-intense applications necessitates deployment of higher capacity WDM systems in both inside datacenter and metro datacenter interconnects systems. This demand for higher datarates is reflected by the numerous standardization and study groups commenced in the last couple of years. While the standardization scrutinizes the requirements for smooth migration for a datacenter interconnect with distances of upto 40km, the upgrade to high capacity DC metro access networks (beyond 40km), where no standardization exists, needs to address the economic viability together with greater space, power and bandwidth efficiency requirements. This presentation focuses on both of these areas and elucidates the current trends and evolving technologies to deal with the dynamically shifting landscape of DCI. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/hscuboethernet100gandbeyonddcworldwebsite-160414100412-thumbnail.jpg?width=120&height=120&fit=bounds" /> The insatiable desire for more capacity and faster datarate arising from the explosion in bandwidth-intense applications necessitates deployment of higher capacity WDM systems in both inside datacenter and metro datacenter interconnects systems. This demand for higher datarates is reflected by the numerous standardization and study groups commenced in the last couple of years. While the standardization scrutinizes the requirements for smooth migration for a datacenter interconnect with distances of upto 40km, the upgrade to high capacity DC metro access networks (beyond 40km), where no standardization exists, needs to address the economic viability together with greater space, power and bandwidth efficiency requirements. This presentation focuses on both of these areas and elucidates the current trends and evolving technologies to deal with the dynamically shifting landscape of DCI.

100G and Beyond DC Interconnect: Present and Future from Susmita Adhikari Joshi

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0 Passive 100G DC Interconnect: Challenges and Solutions /slideshow/passive-100g-dc-interconnect-challenges-and-solutions/55463827 hscubopassive100g16to9final-151124140708-lva1-app6891
This presentation provides a primer in current 100G technology developments, with a focus on the two market available 100G transport approaches: multicarrier direct detection and single carrier coherent. Additionally, different application scenarios with hybrid 10G/100G and multiple 100G transmissions are discussed elucidating fiber impairments and compensation techniques. ]]>
This presentation provides a primer in current 100G technology developments, with a focus on the two market available 100G transport approaches: multicarrier direct detection and single carrier coherent. Additionally, different application scenarios with hybrid 10G/100G and multiple 100G transmissions are discussed elucidating fiber impairments and compensation techniques. ]]> Tue, 24 Nov 2015 14:07:08 GMT /slideshow/passive-100g-dc-interconnect-challenges-and-solutions/55463827 SusmitaAdhikari@slideshare.net(SusmitaAdhikari) Passive 100G DC Interconnect: Challenges and Solutions SusmitaAdhikari This presentation provides a primer in current 100G technology developments, with a focus on the two market available 100G transport approaches: multicarrier direct detection and single carrier coherent. Additionally, different application scenarios with hybrid 10G/100G and multiple 100G transmissions are discussed elucidating fiber impairments and compensation techniques. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/hscubopassive100g16to9final-151124140708-lva1-app6891-thumbnail.jpg?width=120&height=120&fit=bounds" /> This presentation provides a primer in current 100G technology developments, with a focus on the two market available 100G transport approaches: multicarrier direct detection and single carrier coherent. Additionally, different application scenarios with hybrid 10G/100G and multiple 100G transmissions are discussed elucidating fiber impairments and compensation techniques.

Passive 100G DC Interconnect: Challenges and Solutions from Susmita Adhikari Joshi

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0 White Paper: Resilient Semi-Passive Optical Link Protection /slideshow/d5139wpresilient-semipassive-optical-link-protection/51576226 0ffbe997-25a5-4b61-81c9-aa70c2307847-150813083328-lva1-app6892
It is important to plan protection against failures to ensure a high level of network performance, especially for networks where every second of the interruption in the data traffic leads to economic dismay and also exhaustion of valuable resources (time and expert personnel) that would be much appreciated elsewhere. The fronthauling or backhauling network and enterprise access networks can thus benefit from the classical technique of multipath transmission.]]>
It is important to plan protection against failures to ensure a high level of network performance, especially for networks where every second of the interruption in the data traffic leads to economic dismay and also exhaustion of valuable resources (time and expert personnel) that would be much appreciated elsewhere. The fronthauling or backhauling network and enterprise access networks can thus benefit from the classical technique of multipath transmission.]]> Thu, 13 Aug 2015 08:33:28 GMT /slideshow/d5139wpresilient-semipassive-optical-link-protection/51576226 SusmitaAdhikari@slideshare.net(SusmitaAdhikari) White Paper: Resilient Semi-Passive Optical Link Protection SusmitaAdhikari It is important to plan protection against failures to ensure a high level of network performance, especially for networks where every second of the interruption in the data traffic leads to economic dismay and also exhaustion of valuable resources (time and expert personnel) that would be much appreciated elsewhere. The fronthauling or backhauling network and enterprise access networks can thus benefit from the classical technique of multipath transmission. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/0ffbe997-25a5-4b61-81c9-aa70c2307847-150813083328-lva1-app6892-thumbnail.jpg?width=120&height=120&fit=bounds" /> It is important to plan protection against failures to ensure a high level of network performance, especially for networks where every second of the interruption in the data traffic leads to economic dismay and also exhaustion of valuable resources (time and expert personnel) that would be much appreciated elsewhere. The fronthauling or backhauling network and enterprise access networks can thus benefit from the classical technique of multipath transmission.

White Paper: Resilient Semi-Passive Optical Link Protection from Susmita Adhikari Joshi

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0 https://cdn.slidesharecdn.com/profile-photo-SusmitaAdhikari-48x48.jpg?cb=1630693016 * Professionally: motivated, ambitious, people person, technologically sound with a desire to excel. * Personally: a mother, volunteer social worker, free-spirited, explorer and living in the moment. susmita-adhikari.com/ https://cdn.slidesharecdn.com/ss_thumbnails/d-5134whitepaper-real-timemonitoringpassiveopticalnetworks-160426095143-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/white-paper-realtime-monitoring-of-passive-optical-networks/61361833 White Paper: Real-Time... https://cdn.slidesharecdn.com/ss_thumbnails/d-5143-rev-160426094211-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/d-5143reva-white-paperevolving-technolgies-for-mobile-front-and-backhaulinghs/61361434 White Paper: Evolving ... https://cdn.slidesharecdn.com/ss_thumbnails/d-5116-whitepaper-evolutionfrom10gto100gforametronetworkhs-160426093305-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/white-paperevolution-from-10gbps-to-100gbps-for-a-metro-networkhs/61361053 White Paper-Evolution ...