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This is an introductory course and does not assume any previous knowledge of IPv6. It is suitable for wireless professionals who want to gain awareness of IPv4’s real limitations, the key issues with IPv6’s new capabilities, and how to transition the networks. The course assumes basic knowledge...

To meet the rapidly growing IP data traffic in wireless networks, 3GPP is working on the evolution of LTE networks a.k.a. LTE-Advanced. LTE-Advanced system is designed to increase the peak data rates of 1 Gbps in a fixed/nomadic conditions, one of the requirements of IMT-Advanced. This seminar provides...

Long Term Evolution (LTE) is a 4th generation wireless network that utilizes Evolved Packet Core (EPC) – an All-IP core network. The Evolved Packet System (EPS) combines LTE radio network and EPC. The EPC in conjuction with Policy and Charging Control (PCC) framework and IP Multimedia Subsystem...

The LTE Evolved Packet System (EPS) is an evolution of the 3GPP system architecture with the vision of an all-IP network finally realized. EPS consists of the Evolved UTRAN (E-UTRAN) and Evolved Packet Core (EPC). EPC supports mobility with the existing 3GPP and non-3GPP wireless networks to facilitate...

IP Convergence is the key enabler for wireless, wire-line, cable and enterprise networks of the future. In-depth understanding of Interconnection of IP and Ethernet networks is essential for those designing, operating and monitoring large complex carrier networks. This course focuses on technologies...

Long Term Evolution (LTE) is universally accepted next generation broadband wireless system based on an All-IP network. Each LTE device would need at least one IP address to communicate and obtain services like web browsing, Machine-to-machine communication, voice and video services, SMS, etc. As the...

This seminar provides an overview of the LTE air interface. LTE (Long Term Evolution) is a 4th generation (4G) wireless technology which promises much higher air interface data rate (over 100 Mbps) to users while reducing the cost per bit for wireless service providers. The seminar starts off with an...

The major focus of this course is the interworking between UMTS/HSPA and LTE. The course begins with a brief overview of LTE and 3GPP 2G/3G network architectures and requirements for interworking. The building blocks that support interworking between LTE and UMTS/HSPA are discussed in detail, including...

To meet the rapidly growing IP data traffic demand cost-effectively, 3GPP has defined next generation air interface based on OFDM and MIMO that supports gigabits of data rates – LTE in Release 8 (R8) and evolution of LTE called LTE-Advanced (R10/R11). This course provides a technical overview of...

Long Term Evolution (LTE) is a 4th generation wireless network technology based on OFDM and MIMO. It provides much higher data rates (over 100 Mbps) to users while reducing the cost-per-bit for service providers. This is very exciting to wireless operators who are eager to deploy multimedia-rich Internet...

Long Term Evolution (LTE) is a 4th generation wireless network technology based on OFDM and MIMO. It provides much higher data rates (over 100 Mbps) to users while reducing cost-per-bit for service providers. This is very exciting to wireless operators who are eager to deploy multimedia rich Internet...

LTE promises dramatic improvements in throughput and latency, which opens a new era in Quality of Service (QoS). These enhancements are based on several fundamental pillars: A new air interface (OFDM+MIMO), simplified network architecture and efficient air interface structure and signaling mechanisms...

This course defines a practical approach to LTE RAN capacity planning, and applies the concepts to design and augment LTE network. Throughout the class, students build up RAN capacity models based on typical network operations, determining the eNB, air interface and backhaul requirements needed to support...

Long Term Evolution (LTE) is an all-IP wireless system that promises dramatic improvements in throughput and latency. The LTE enhancements are based on several fundamental pillars: a new air interface (OFDM+MIMO), simplified network architecture and efficient air interface structure and signaling mechanisms...

The LTE system supports broadband wireless access in a mobile cellular environment, and is considered a 4G wireless system, offering data rates in the range of 100 Mbps. The LTE system is based on the OFDM-based radio air interface. The LTE system also deploys advanced antenna techniques to increase...

Long Term Evolution (LTE) is a radio technology based on OFDM and MIMO technologies. LTE provides much higher data rates (over 100 Mbps) to users while reducing the cost-per-bit for service providers. This is very exciting to wireless operators who are eager to deploy multimedia rich Internet content...

LTE promises much faster data speeds and access to services that were not practical in 3G. As enterprise customers explore the capabilities and implications of this technology, those involved with enterprise sales need to be prepared to confidently and accurately answer their questions. This session...

LTE (Long Term Evolution) uses the Evolved Packet Core (EPC) architecture, a distributed and unified IP-based core network, to efficiently deliver Internet services to mobile wireless subscribers. This course describes typical LTE network architecture and deployment strategies, as the starting point...

Long Term Evolution (LTE) is a 4th generation (4G) wireless technology that promises a much higher air interface data rate (over 100 Mbps) to users while reducing the cost per bit for wireless service providers. The building blocks of LTE include OFDM, multiple antenna techniques, and all-IP technologies...

To meet the rapidly growing IP data traffic in wireless networks, wireless service providers have started deploying the next generation wireless networks. The next generation wireless networks need to contain the cost of delivering lots of traffic as the ARPU is not expected to increase at the same rate...

The LTE Evolved Packet Core (EPC) is an evolution of the 3GPP system architecture with the vision of an all-IP network finally realized. EPC in conjunction with IP Multimedia Subsystem (IMS) delivers various services such as VoIP, SMS, Video call, Picture share, IM and Presence. EPC and IMS support mobility...