Modern Transport Network
Course Objectives: Upon completion of this course, participants will be able to: Plan and Design 3G/4G Mobile backhaul networks Understand advanced routing solutions IP/MPLS Sketch the typical 3G/4G IP backhaul deployment architecture Know the differences of Ethernet backhaul services from Private line service to Ethernet VP Tree service Recognize the …
Read MoreSubmarine Cable Systems with IPLC and IP Transit Services
Course Objectives: After attending this training participants will be able to: Describe the principle elements of international submarine telecommunication networks, the key drivers for their deployment, and the various business models employed, including a traditional carrier consortium Describe submarine cable system network components, architecture, and types of interface supported Describe …
Read MoreNext Generation Access Network (NGAN) Planning – FTTx-GPON
Course Objectives: After Attending this training participants will be able to Describe copper access network and DSL systems evolution, Describe basics of fiber optic network and systems, Describe optical access network evolution, Describe and compare the different Next Generation Access Network (NGAN) architectures and technologies, Understand network elements and construction …
Read MoreEthernet Radio for Next Generation Mobile Network
Course Objectives: The 4th generation (4G) of wireless technologies promises a much higher air interface data rate (over 100 Mbps) to users. Delivering such high data rates require a very fast and efficient backhaul network. The current T1/E1 backhaul using legacy TDM digital microwave radios cannot support such high data …
Read More3G LTE Microwave Transmission Network Planning
Course Objectives: This 5-day course provides participants with a complete understanding of microwave radios, statistical multiplexing, delay and jitter and understanding of packet transmission through adaptive modulation. This course is designed by Telefocal’s team of experts with many years of field experience planning and deploying 3G LTE transmission networks that …
Read MorePathloss 5 Workshop
Course Objectives: Participants will acquire a basic understanding of Microwave Network design and planning concepts, and develop a thorough understanding on how to plan and configure microwave networks using Pathloss 5 link planning tool. Lab sessions will be conducted to enhance the learning experience. Course Duration: 3-day workshop Course Outlines: …
Read MoreSDH / DWDM Fundamentals
Course Objectives: This course provides an understanding of the SONET/SDH and DWDM networking technologies and elements that are required to build evolving transport networks. It provides participants with a solid business and technical foundation in optical networks, services and applications development. Pre-Requisite for Participants: Good understanding of basic communications principles. …
Read MoreDWDM & Optical Networking
Course Objectives: After completing this “DWDM and Optical Networking” course, participants will be able to: Understand technologies and concepts that make DWDM and optical network, including DWDM OADMs, Optical Amplifiers, Cross Connects, and components Explain advanced DWDM Network designs and Engineering Design and evaluate optical components in a DWDM network …
Read MoreMicrowave Transmission Engineering and Link Planning
Course Objectives: At the end of this five day course the student will understand the essentials of Transmission engineering and will be able to design and manage microwave networks. This course is designed to teach students the essence of microwave path planning. Once completed they will be able to design …
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