SERIQA Network - Entrepreneurial Consulting Services
Case Study: Software Tools for Telecom Operators
Role: Founder, CEO/CTO - Research and Development
I. Network Design and Optimization
As Founder, CEO/CTO, I have led the planning, design and development of network design tools and optimization for telecom operators: this includes Bezeq (Fixed/Mobile Network Operator) Israel, Pelephone (Wireless operator), Cellcom (Wireless operator), Barak (ISP), Level 3 (USA), Colt (UK), AT&T (USA) and France Telecom. Singtel (Singapore) and Thai Telecom (Thiland),
The system accesses network management system databases to enable: network visualization, design, optimization, flow modeling, resource planning, tuning and allocation, cost modeling, routing, failure analysis, growth, simulations and reports generation for MPLS-VPN and MPLS-TE networks, RAN and Backhaul carrier's networks.
As chief designer I've derived and implemented interactive network algorithms that can manipulate 10 of thousands nodes, manholes, radio-poles, handholds, fiber splices, fiber cables, and fiber links. The system decomposes the network into a number of independent layer networks with client/server relationship between adjacent layer networks to enables cross-correlation of network layers for network optimization and resilience.
II. Traffic-Engineering (TE) and Expert Systems
I conceived design and developed network software tools for Service Providers. The system provides the following capabilities:
The software system enables interactive and distributed real-time TE algorithms for Cisco’s core routers using differentiated services and IP/MPLS tunnels.
As chief designer, I’ve derived IP network overload protection algorithms: sizing routers’ queues and/or MPLS tunnels to enable QoS for VoIP/VoD, delay and jitter sensitive applications. This includes: Routing optimization, Bandwidth allocations, Traffic optimization, Failure analysis, Resource planning, and Cost modeling.
Traffic Engineering services provided to Tier 1 and Tier 2 Carriers
We conceived, design, managed and coordinated the development of IP network systems for network performance management. The system enables network wide guaranteed SLA for VoIP and VoD applications, and provides for network calibration and traffic overload protection mechanism using DiffServ and QoS standards in MPLS and VPN networks.
The system analyzes, optimizes, and maximizes availability of RAN and Wireline carrier's networks. The system implements interactive network algorithms that can manipulate 10 of thousands nodes, manholes, radio-poles, handholds, fiber splices, fiber cables, and fiber links.
The system decomposes the network into a number of independent layer networks with client/server relationship between adjacent layer networks to enables cross-correlation of network layers for network optimization and resilience.
The system accesses network databases for network visualization, design, optimization, flow modeling, resource planning, tuning and allocation, cost modeling, routing, failure analysis, growth, simulations and reports generation for MPLS-VPN and MPLS-TE networks.
Role: Founder, CEO/CTO - Research and Development
I. Network Design and Optimization
As Founder, CEO/CTO, I have led the planning, design and development of network design tools and optimization for telecom operators: this includes Bezeq (Fixed/Mobile Network Operator) Israel, Pelephone (Wireless operator), Cellcom (Wireless operator), Barak (ISP), Level 3 (USA), Colt (UK), AT&T (USA) and France Telecom. Singtel (Singapore) and Thai Telecom (Thiland),
The system accesses network management system databases to enable: network visualization, design, optimization, flow modeling, resource planning, tuning and allocation, cost modeling, routing, failure analysis, growth, simulations and reports generation for MPLS-VPN and MPLS-TE networks, RAN and Backhaul carrier's networks.
As chief designer I've derived and implemented interactive network algorithms that can manipulate 10 of thousands nodes, manholes, radio-poles, handholds, fiber splices, fiber cables, and fiber links. The system decomposes the network into a number of independent layer networks with client/server relationship between adjacent layer networks to enables cross-correlation of network layers for network optimization and resilience.
II. Traffic-Engineering (TE) and Expert Systems
I conceived design and developed network software tools for Service Providers. The system provides the following capabilities:
The software system enables interactive and distributed real-time TE algorithms for Cisco’s core routers using differentiated services and IP/MPLS tunnels.
As chief designer, I’ve derived IP network overload protection algorithms: sizing routers’ queues and/or MPLS tunnels to enable QoS for VoIP/VoD, delay and jitter sensitive applications. This includes: Routing optimization, Bandwidth allocations, Traffic optimization, Failure analysis, Resource planning, and Cost modeling.
Traffic Engineering services provided to Tier 1 and Tier 2 Carriers
We conceived, design, managed and coordinated the development of IP network systems for network performance management. The system enables network wide guaranteed SLA for VoIP and VoD applications, and provides for network calibration and traffic overload protection mechanism using DiffServ and QoS standards in MPLS and VPN networks.
The system analyzes, optimizes, and maximizes availability of RAN and Wireline carrier's networks. The system implements interactive network algorithms that can manipulate 10 of thousands nodes, manholes, radio-poles, handholds, fiber splices, fiber cables, and fiber links.
The system decomposes the network into a number of independent layer networks with client/server relationship between adjacent layer networks to enables cross-correlation of network layers for network optimization and resilience.
The system accesses network databases for network visualization, design, optimization, flow modeling, resource planning, tuning and allocation, cost modeling, routing, failure analysis, growth, simulations and reports generation for MPLS-VPN and MPLS-TE networks.