Generalized Multi-Protocol Label Switching (GMPLS) is a protocol suite extending MPLS to manage
further classes of interfaces and switching technologies other than packet interfaces and switching, such
as time division multiplexing, layer-2 switching, wavelength switching and fiber-switching.
GMPLS (Generalized Multiprotocol Label Switching), also known as Multiprotocol Lambda Switching. In
particular, GMPLS will provide support for photonic networking, also known as optical communications.
Passive Optical Networks (PON) technology
brings an evolution in the industry of Telecommunication for the
provisioning of High Speed Internet (HSI) and Triple Play
bundled Services that includes Voice, Data, and Video Streaming
throughout the world. In Pakistan most of the service providers
are offering broadband services on traditional copper OSP
(Outside Plant) network since 2000. Demand for the high speed
internet and broadband is increasing rapidly, it is desired with
great need to migrate from traditional copper based OSP network
to PON – FTTx (Fiber To The x) infrastructure. Considering the
geographical requirements in Pakistan a scalable fiber network is
required which can be optimized as per the user’s requirements
and demands with high speed bandwidth efficiency, involving the
minimum losses and with ideal capital expenditure (CAPEX). In
this work a platform for migration from copper to fiber access
network with a scalable and optimized PON – FTTx
infrastructure in green field and dry field areas of Pakistan have
been proposed using Geographic Information system (GIS). In
any developing country like Pakistan having the same cultural
and geographical topology, this platform can be used to migrate
from copper to fiber access network to provide the PON based
telecom services. The developed platform for migration from
copper to PON based fiber has been studied, planned, and then
simulated on a selected geographical area of Pakistan with
physical execution that showed better and efficient results with
reduction in capital and operational expenditures. A factual plan
without ambiguities assists the operators of Pakistan to
analyze/forecast bandwidth requirements of an area, optimized
network planning along with the in time and efficient
deployment.
Generalized Multi-Protocol Label Switching (GMPLS) is a protocol suite extending MPLS to manage
further classes of interfaces and switching technologies other than packet interfaces and switching, such
as time division multiplexing, layer-2 switching, wavelength switching and fiber-switching.
GMPLS (Generalized Multiprotocol Label Switching), also known as Multiprotocol Lambda Switching. In
particular, GMPLS will provide support for photonic networking, also known as optical communications.
Passive Optical Networks (PON) technology
brings an evolution in the industry of Telecommunication for the
provisioning of High Speed Internet (HSI) and Triple Play
bundled Services that includes Voice, Data, and Video Streaming
throughout the world. In Pakistan most of the service providers
are offering broadband services on traditional copper OSP
(Outside Plant) network since 2000. Demand for the high speed
internet and broadband is increasing rapidly, it is desired with
great need to migrate from traditional copper based OSP network
to PON – FTTx (Fiber To The x) infrastructure. Considering the
geographical requirements in Pakistan a scalable fiber network is
required which can be optimized as per the user’s requirements
and demands with high speed bandwidth efficiency, involving the
minimum losses and with ideal capital expenditure (CAPEX). In
this work a platform for migration from copper to fiber access
network with a scalable and optimized PON – FTTx
infrastructure in green field and dry field areas of Pakistan have
been proposed using Geographic Information system (GIS). In
any developing country like Pakistan having the same cultural
and geographical topology, this platform can be used to migrate
from copper to fiber access network to provide the PON based
telecom services. The developed platform for migration from
copper to PON based fiber has been studied, planned, and then
simulated on a selected geographical area of Pakistan with
physical execution that showed better and efficient results with
reduction in capital and operational expenditures. A factual plan
without ambiguities assists the operators of Pakistan to
analyze/forecast bandwidth requirements of an area, optimized
network planning along with the in time and efficient
deployment.
FTTH Deployment in Ireland: Eir's experiences (workshop FTTH EU Conference 2016)Comsof
Ireland is an interesting market to focus on, as FTTH deployment in Ireland involves different players, varying types of population densities and different architectures and deployment methods. The very competitive market structure in some parts of the country is countered by government involvement to improve the infrastructure for rural areas. Eir’s Senior Access Strategist, David Renehan will explain how they handle all these difficulties and will highlight their learnings from the project, while experts from Comsof and GE dive into specific issues in the planning and deployment process.
This is the presentation from a workshop at the FTTH EU Conference 2016 titled "Learning from Real life cases - key success factors during preparation of a FTTH rollout" organized by iMinds, GE and FiberPlanIT.
Real Fibre optic FTTH FTTX network design, engineering & planning software fo...van den Dool Dick
ITS-NetDesign™
Our Fibre optic FTTH / FTTX network design, engineering & planning software for Autocad® is an important member of our suite of software solutions & planning tools.
Simply: design, engineer & plan FTTH / FTTX optical fibre networks.
Advanced modelling of P2P & GPON networks.
Real network design & engineering software for Autocad®.
Faster and more flexible than any GIS.
Software details, engine, installation, usage, customization, examples, LISP programming
Introducing our 5G Platform for the first movers in 5G, the first completely end-to-end solution that combines core and radio solutions in 5G to enable new opportunities and use cases
Begin your evolution with Ericsson’s new small cell solutions.
There is need for the multi-operator dots, multi-dot enclosure, and strand -mounted bracket. The complicated arrangements are made easier with Ericsson small cell solutions.
Prof. Andy Sutton: 5G RAN Architecture Evolution - Jan 20193G4G
This presentation explores the evolution of GSM, UMTS and LTE radio access network architectures before a detailed review of the RAN architecture options for 5G. The functional decomposition of the 5G radio access network presents the network designer with many challenges with regards placement of RU, DU and CU nodes, all of which are discussed. The presentation concludes with a review of BT UK plans for 5G launch with a fully distributed RAN in support of an EN-DC architecture.
Presented by Professor Andy Sutton CEng FIET, Principal Network Architect, Architecture & Strategy, BT Technology at IET 5G - the Advent conference on 30 January 2019 | IET London: Savoy Place
*** SHARED WITH PERMISSION ***
All components of the 5G platform is in place, we are making our system truly end-to-end with the new products we are introducing. With two new 5G Radios, AIR 6488 and AIR 5121 that, together with the AIR 6468, launched 2016, give us a complete portfolio of 5G radios for Massive MIMO with new mid-band and high-band versions.
FiberPlanIT - FTTx Network Design Tool - presentation Broadband World Forum 2016Comsof
FiberPlanIT is automation and optimization. In this presentation we explain how it helps to save time and money in an FTTx project. ISPs, engineering firms and consultancy firms can all benefit from using an automated and optimized approach.
FTTH Deployment in Ireland: Eir's experiences (workshop FTTH EU Conference 2016)Comsof
Ireland is an interesting market to focus on, as FTTH deployment in Ireland involves different players, varying types of population densities and different architectures and deployment methods. The very competitive market structure in some parts of the country is countered by government involvement to improve the infrastructure for rural areas. Eir’s Senior Access Strategist, David Renehan will explain how they handle all these difficulties and will highlight their learnings from the project, while experts from Comsof and GE dive into specific issues in the planning and deployment process.
This is the presentation from a workshop at the FTTH EU Conference 2016 titled "Learning from Real life cases - key success factors during preparation of a FTTH rollout" organized by iMinds, GE and FiberPlanIT.
Real Fibre optic FTTH FTTX network design, engineering & planning software fo...van den Dool Dick
ITS-NetDesign™
Our Fibre optic FTTH / FTTX network design, engineering & planning software for Autocad® is an important member of our suite of software solutions & planning tools.
Simply: design, engineer & plan FTTH / FTTX optical fibre networks.
Advanced modelling of P2P & GPON networks.
Real network design & engineering software for Autocad®.
Faster and more flexible than any GIS.
Software details, engine, installation, usage, customization, examples, LISP programming
Introducing our 5G Platform for the first movers in 5G, the first completely end-to-end solution that combines core and radio solutions in 5G to enable new opportunities and use cases
Begin your evolution with Ericsson’s new small cell solutions.
There is need for the multi-operator dots, multi-dot enclosure, and strand -mounted bracket. The complicated arrangements are made easier with Ericsson small cell solutions.
Prof. Andy Sutton: 5G RAN Architecture Evolution - Jan 20193G4G
This presentation explores the evolution of GSM, UMTS and LTE radio access network architectures before a detailed review of the RAN architecture options for 5G. The functional decomposition of the 5G radio access network presents the network designer with many challenges with regards placement of RU, DU and CU nodes, all of which are discussed. The presentation concludes with a review of BT UK plans for 5G launch with a fully distributed RAN in support of an EN-DC architecture.
Presented by Professor Andy Sutton CEng FIET, Principal Network Architect, Architecture & Strategy, BT Technology at IET 5G - the Advent conference on 30 January 2019 | IET London: Savoy Place
*** SHARED WITH PERMISSION ***
All components of the 5G platform is in place, we are making our system truly end-to-end with the new products we are introducing. With two new 5G Radios, AIR 6488 and AIR 5121 that, together with the AIR 6468, launched 2016, give us a complete portfolio of 5G radios for Massive MIMO with new mid-band and high-band versions.
FiberPlanIT - FTTx Network Design Tool - presentation Broadband World Forum 2016Comsof
FiberPlanIT is automation and optimization. In this presentation we explain how it helps to save time and money in an FTTx project. ISPs, engineering firms and consultancy firms can all benefit from using an automated and optimized approach.
How to Improve Profit and Minimise Risks. Presentation by Raf Meersman, CEO, FiberPlanIT by Comsof at the Broadband World Forum conference 2015 in London
Presentation by FiberPlanIT on FTTH Connect 2016. This presentation focuses on the challenges and advantages of building an FTTH network as a utility company.
Case Study: Eir's (Former Eircom, Ireland's national operator)approach to fiber planning and design using FiberPlanIT. This case study was presented at the 2015 Fixed Access Summit in Berlin.
The x in FTTx FiberPlanIT, much more than FTTH planning Comsof
This presentation was used during our webinar on FTTx planning and design with FiberPlanIT. We show how to increase the profit of your FTTx project by making the right choices during the planning and design process for various types of fiber networks (different options for the "x" in FTTx) using the FiberPlanIT tools.
Whereas many of our demos focus on FTTH, this time we focus on all other variations of FTTx like FTTNode, FTTAntenna, FTTCabinet and talk about migration scenarios that bring fiber closer to the customer but reusing the last part of the existing copper or coax networks in combination with technologies such as VDSL, G.Fast and DOCSIS.
We show how FiberPlanIT allows to make accurate cost estimations in a short time, compare a variety of technical scenarios and optimise the business case by making the right choices on how to bring the fiber closer to the customers in a gradual way.
If you want to receive the recording of the webinar and see the software in action visit www.fiberplanit.com/contact and contact us!
10 STAGES OF FIBER OPTICS PROJECT IMPLEMENTATIONimtfiber
HOW TO CARRY OUT SUCCESSFUL FIBER OPTIC PROJECT STAGE BY STAGE. THE OUTSIDE PLANT PROJECT OF FIBER OPTICS CABLING TECHNIQUES WHICH INCLUDE PROJECT PLANNING TO PROJECT EXECUTION