This course delivers a detailed overview of Internet Protocol networks. Delivering an understanding of Engineering techniques, as well as applications, protocols and switching methods, it enables delegates to work confidently in the IP environment. Other topics explored include QoS, security, VPNS and Multimedia over IP. This IP Engineering training course is designed to provide a comprehensive understanding of Internet Protocol networks, covering engineering techniques, applications, protocols, and switching methods. Participants will gain the knowledge and skills needed to confidently work in the IP environment, with topics including QoS, security, VPNS, and Multimedia over IP.  Ideal for those looking to understand how IP networks are designed and implemented, this course is suitable for individuals with some knowledge or experience of packet-switched data network operation and Internet technology. By enrolling in this course, participants will explore a range of topic areas including the background to the Internet and ISPs, IPv6, DNS, MPLS, access services, routing in IP networks, IP QoS technologies, security engineering, IP VPNs, and IP multimedia services. Gain the skills and expertise needed to succeed in the dynamic field of IP engineering with this comprehensive training program. Who would benefit Those needing to understand how IP networks are designed and implemented. Prerequisites Some knowledge or experience of packet-switched data network operation and Internet technology is beneficial. Topic Areas Include Background to the Internet and ISPs The Data Link, IP, Transport and Application layers IPv6 The Domain Name System (DNS) Introduction to MPLS Access services E-mail services and web hosting Name servers Service Provider Network architectures Peering Routing in IP networks Overview of OSPF and BGP4 IP QoS technologies Security engineering IP VPNs IP multimedia services

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This course introduces some of the key techniques used in the latest products related to microwave radio. Topics covered include adaptive modulation; radio link protection and bonding; fixed link MIMO; Internet Protocol (IP) radio; Ethernet QoS management; header compression and split mount; and full outdoor configuration. The course looks at how vendors and network planners are addressing the issues associated with upgrading from legacy microwave technologies (PDH/SDH) to full IP. The emerging E-band technology is discussed in detail, with a particular emphasis on planning E-band links and the technical specifications of a range of equipment from the main vendors. In this comprehensive IP Microwave and E-Band Planning Training Course, participants will delve into the latest techniques and technologies in the field of microwave radio. The course covers a wide range of topics including adaptive modulation, radio link protection, Ethernet QoS management, and the transition from legacy microwave technologies to full IP. Participants will also gain valuable insights into E-band technology, with a focus on planning E-band links and understanding the technical specifications of equipment from leading vendors. This course is ideal for experienced transmission and backhaul engineers, as well as system architects looking to deepen their understanding of fixed broadband radio. A good knowledge of radio principles and familiarity with IP technologies are recommended prerequisites for this training. By the end of the course, participants will have a solid grasp of Ethernet radio, spectrum and regulation, technological developments in fixed link radio, planning IP and E-Band radio links, and timing and synchronization. Who would benefit This course is intended for experienced transmission and backhaul engineers and system architects requiring an in-depth understanding of the evolution of fixed broadband radio. Prerequisites A good knowledge of radio principles would be desirable, as well as an appreciation of IP technologies. Topic Areas Include Ethernet Radio Spectrum and Regulation Technological Developments in Fixed Link radio Planning IP and E-Band Radio Links Timing and Synchronization

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This is IP multicasting practically carrying an IPTV service using the Protocol Independent Multicast (PIM) and Internet Group Management Protocol (IGMP) protocols. IGMP and PIM are introduced and then PIM Sparse Mode and Source Specific Mode is tested practically using labs. Join our 2-day IP Multicast Routing training course to gain a comprehensive understanding of Protocol Independent Multicast (PIM) and Internet Group Management Protocol (IGMP) protocols. Through practical labs, you will learn how to implement PIM Sparse Mode and Source Specific Mode to deliver IPTV services effectively. This course is ideal for engineers venturing into the realm of IPTV and converged services, providing you with the necessary skills to navigate the complexities of IP multicasting. Prior knowledge of IP protocols, particularly link state protocols like OSPF, is recommended for this course. If you need to brush up on your understanding of these protocols, consider attending our 'OSPF and BGP Routing Protocols' course before diving into IP multicasting. With a focus on hands-on learning, our training sessions will equip you with the expertise needed to configure multicast routing tables, understand IPv4 and IPv6 multicast addressing, and implement multicast services efficiently. Expand your knowledge of IP multicasting and enhance your skill set with our IP Multicast Routing training course.  Who would benefit Engineers particularly those entering the world of IPTV and converged services generally would benefit from this Wray Castle course. Prerequisites A good understanding of IP protocols especially link state protocols such as OSPF which can be gained by attending our Wray Castle course ‘OSPF and BGP Routing Protocols – IP1310’ Topic Areas Include What is IP Multicast? IPv4 Multicast Addressing Multicast vs Unicast or Broadcast Routing Multicast Routing Tables Multicast in LANs Internet Group Management Protocol (IGMP) Protocol Independent Multicast (PIM) Multicast Services IPv6 Multicast ICMPv6

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This course provides an understanding of the IP Multimedia Subsystem’s (IMS) role in Next Generation Networking. It provides a detailed description of the IMS architecture including security, charging and Policy and Charging Control (PCC). Additionally it identifies the main protocols associated with IMS including SIP, Diameter and SDP and analyzes their role in the IMS registration and session control procedures. It also provides a brief look at some of the applications enabled by the IMS. Our IP Multimedia Subsystem (IMS) training course is designed to provide a comprehensive understanding of the IMS architecture and its role in Next Generation Networking. Over the course of 2 days participants will delve into the intricacies of IMS, including security, charging, and Policy and Charging Control (PCC). This course also covers the main protocols associated with IMS, such as SIP, Diameter, and SDP, and analyzes their role in registration and session control procedures. Ideal for individuals seeking a thorough understanding of IMS architecture, interfaces, and procedures, this course is perfect for telecom professionals looking to enhance their knowledge and skills in this crucial area. Participants should have a basic understanding of SIP and packet-switched domains in LTE, GPRS, and UMTS networks to fully benefit from this training. Topics covered in this course include IMS framework, protocols for IMS, CSCFs and HSS roles, IMS access mechanisms, application service environment, security aspects, charging, and much more. By the end of the training, participants will have a solid grasp of IMS and its applications in the telecom industry. Who would benefit Those requiring a full understanding of the architecture, interfaces and procedures of the IMS. Prerequisites An understanding of SIP and the packet-switched domains in LTE, GPRS and UMTS networks and their functionality is an advantage. Topic Areas Include What is the IMS and why do we need it? Introduction to the IMS Framework Protocols for IMS IMS architecture, interfaces, operation and procedures Roles of the CSCFs and HSS including AAA procedures IMS access mechanisms and IP address allocation and P-CSCF discovery User subscription profiles, User Identities and Initial Filter Criteria Implicit Registration Sets Application Service (AS) environment Interaction between the CSCFs and the AS environment Circuit Switched interworking The Media Resource Function (MRF) Border Control Functions and gateways IMS Security aspects Online and Offline Charging Policy Control and Charging Analysis of SIP Registration, Originating and Terminating Session Control includes some example Wireshark analysis Emergency call handling IMS Applications

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The Internet Protocol (IP) is the key underpinning transmission and switching technology for almost all communication network types and a core skill for telecoms and IT engineers. Theoretical knowledge of how IP networks perform and hands-on experience of how to configure network devices and troubleshoot problems is offered through this intensive five-day course. Delegates work with a state-of-the-art equipment ‘pod’ whilst being led through the key theories. Our IP Workshop Training Course is a comprehensive five-day program designed to provide telecoms and IT engineers with the essential knowledge and hands-on experience needed to excel in the field of IP networking. Participants will work with state-of-the-art equipment pods and learn key theories behind IP networks, router configuration, testing, and troubleshooting. Engineers who want to deepen their understanding of IP protocols and network architecture will greatly benefit from this course. Prior knowledge of TCP/IP is required, which can be obtained by attending our TCP/IP course (QS2501). Throughout the program, participants will cover a range of topic areas including LAN technologies, Cisco equipment and IOS overview, routing protocols, IP access lists, WAN technologies, VLANs, and more. Hands-on practical exercises make up 60% of the course, ensuring that participants gain valuable experience in configuring network devices. Join us for our IP Workshop Training Course and enhance your skills in IP networking. With 10 live online sessions spread over 5 days, this intensive program will equip you with the knowledge and practical experience needed to succeed in the fast-paced world of telecoms and IT engineering. Who would benefit Engineers who require a thorough understanding of IP protocols and network architecture, together with hands-on experience of router configuration, testing and fault finding. Prerequisites A good knowledge of TCP/IP is required. This can be gained by attending Wray Castle’s TCP/IP course (QS2501). Topic Areas Include LAN technologies recap Introduction to Cisco equipment and an overview of Cisco IOS Basic router administrative functions Interface and configuration management Configuring IP addresses to interfaces Routing and routing protocols IP access lists NAT/PAT configuration WANs – Frame Relay, PPP and ISDN Layer 2 switching – VLANs and VLAN trunking Overview of Cisco examination process Includes hands-on practical exercises accounting for 60% of the course.

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This 3-day course provides a detailed look at IPv6 and in particular how this will apply to telecommunications markets from the User Equipment up through the Service Providers networks and out into the internet. All the essential topics, such as IPv6’s new addressing and packet formats; the variety of ways that IP addresses can be allocated to devices and the relevant standards bodies are covered, however, we also look at the new IPv6 messages and ICMPv6 in particular, as well as investigating the numerous deployment options from Dual Stacking through tunnelling techniques and address translation methods. The course ends with a review of the deployment and transition states that IPv4 and IPv6 networks are likely to evolve. In today's rapidly evolving telecommunications landscape, the transition to IPv6 is becoming increasingly crucial. Our 3-day IPv6 Enabling the Internet of Things training course delves deep into the world of IPv6, exploring its applications in telecommunications markets from end-user devices to service provider networks and beyond. Covering essential topics such as IPv6 addressing, packet formats, allocation methods, and relevant standards bodies, this course also delves into advanced concepts like IPv6 messages and ICMPv6, as well as deployment options including Dual Stacking, tunnelling techniques, and address translation methods. Through a series of real-world examples and hands-on labs, delegates will gain practical experience in key techniques such as address translation, IPv6 tunnelling, and NAT64. This course is ideal for IP design, planning, and support specialists in the fixed or mobile telecommunications sector, including design, planning, and operations staff. A basic understanding of IPv4 and related protocols (TCP, UDP, etc.) is recommended as a prerequisite for this course. Don't miss this opportunity to stay ahead of the curve and master the intricacies of IPv6 in today's interconnected world. Who would benefit Those people who specialise in IP design planning, implementation or support would benefit strongly from attending this course, including design, planning and operations staff. This course is aimed specifically at people working for fixed or mobile telecommunications. Prerequisites An understating of IPv4 and its related protocol ecosystem (TCP; UDP; etc.) would be of benefit. Topic Areas Include The need for IPv6 Packet structure IPv6 addressing Address assignment IPv6 functionality Transition and deployment Adoption and development IPv6 exercises

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This one-day course based on real-life deployments provides a brief look at IPv6 and in particular how this will apply to telecommunications markets from the User Equipment up through the Service Providers networks and out into the internet. All the essential topics, such as IPv6’s new addressing and packet formats; the variety of ways that IP addresses can be allocated to devices and the relevant standards bodies are covered, however, we also look at the new IPv6 messages and ICMPv6 in particular. The course ends with a review of the deployment and transition states that IPv4 and IPv6 networks are likely to evolve. This one-day IPv6 overview training course is designed to provide a comprehensive understanding of IPv6 and its implications for telecommunications markets. From User Equipment to Service Providers networks and beyond, participants will gain insight into IPv6 addressing, packet formats, allocation methods, standards bodies, and deployment strategies. The course also covers new IPv6 messages, ICMPv6, and the transition states of IPv4 and IPv6 networks. Ideal for engineering and technical management staff in both fixed and mobile networks, this course requires no specific prerequisites, although familiarity with IPv4 and related protocols (TCP, UDP, etc.) is beneficial. Participants will explore topics such as the need for IPv6, IPv4 challenges, driving change in the Internet, IPv6 specifications and standards, packet structure, node configuration, functionality, QoS, routing protocols, security features, adoption in the backbone, 3GPP integration, LTE PDN connection IP address allocation, and future developments in IPv6 technology. Who would benefit This course is suitable for all engineering and technical management staff that needs an overview of IPv6 and covers requirements for both fixed and mobile networks. Prerequisites No specific prerequisites are needed although an understating of IPv4 and its related protocol ecosystem (TCP; UDP; etc.) would be of benefit. Topic Areas Include Need for IPv6 IPv4 problems and workarounds Driving change in the Internet IPv6 specifications and standards IPv6 packet structure Minimum node configuration Overview of IPv6 functionality IPv6 packet transmission IPv6 QoS IPv6 routing protocols IPv6 security features Adoption of IPv6 in the backbone IPv6 and 3GPP LTE PDN connection IP address allocation IPv6 and the Internet Further developments

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Being an effective leader is difficult. Some in leadership positions struggle with the basics, others have huge gaps in their understanding, and many restrict themselves to management activities - actively avoiding actual leadership wherever possible. In most cases, the confidence to lead effectively is in short supply, and those that do have the confidence often confuse dominance, or power, with leadership. However, organisations who see good leadership and culture as THE key enablers for their people, are the ones most likely to thrive and prosper – in whatever field they are operating in. This comprehensive programme builds a solid understanding of leadership and culture in business, giving current and aspiring leaders the confidence and tools needed to better engage, guide, develop, coach, organise, assess, and most critically, empower their people, teams and departments. We develop a deep understanding of leadership, including all key aspects related to ourselves as an effective leader; understanding and engaging with our people; developing successful teams; and influence as a primary foundation. We follow this by an extensive look at how we can successfully support and deploy our people whilst building a balanced culture that maximises success, enables innovation, and drives engagement at every level. Exercises, discussions, break-outs, case studies and examples are used throughout in order to maximise learning, build confidence, and establish the foundations for successful leadership. Prerequisites None Topics Covered Include Leadership in Business / Organisations Developing Effective Teams Influence and Communication Supporting and Deploying Effective People – Culture and Innovation

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Our LTE Air Interface Training Course is designed to provide a comprehensive understanding of the air interface for LTE radio access. This course covers OFDMA principles, access and non-access stratum protocols, channel structures, connectivity and mobility management procedures, as well as radio link control functions. Engineers involved in equipment design, operation, optimization, or monitoring of the LTE radio link will benefit greatly from this training. Participants are expected to have an engineering background with some knowledge of digital radio systems and general radio principles and techniques. A basic understanding of LTE and experience with 2G or 3G systems would also be beneficial. Topics covered in the course include LTE system architecture, E-UTRAN architecture and interfaces, OFDMA/SC-FDMA basic principles, MIMO concepts and implementation, physical layer structures, access and non-access stratum protocols, and more. Enhance your knowledge and skills in LTE radio access and stay ahead in the rapidly evolving telecommunications industry. Who would benefit Engineers involved with equipment design, operation, optimization or monitoring of the LTE radio link. Prerequisites An engineering background with some knowledge of digital radio systems and general radio principles and techniques is assumed. A basic understanding of LTE and experience of 2G or 3G systems would be beneficial. Topic Areas Include LTE system architecture E-UTRAN architecture and interfaces OFDMA/SC-FDMA basic principles Defining orthogonality OFDMA features and benefits The Fourier transform OFDMA/SC-FDMA transmitter and receiver chains Modulation and coding, MIMO and the Cyclic Prefix MIMO concepts and implementation Physical layer structures Access and non-access stratum protocols Logical, Transport and Physical channels RRC, PDCP, MAC and RLC functions Resource allocation and scheduling strategies LTE-Advanced concepts Lower layer procedures Connection establishment Radio resource management procedures Also available as a Self-Study Online Learning Programme, learn more.

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Our LTE Air Interface Training Course is designed to provide a comprehensive understanding of the air interface for LTE radio access. This course covers OFDMA principles, access and non-access stratum protocols, channel structures, connectivity and mobility management procedures, as well as radio link control functions. Engineers involved in equipment design, operation, optimization, or monitoring of the LTE radio link will benefit greatly from this training. Participants are expected to have an engineering background with some knowledge of digital radio systems and general radio principles and techniques. A basic understanding of LTE and experience with 2G or 3G systems would also be beneficial. Topics covered in the course include LTE system architecture, E-UTRAN architecture and interfaces, OFDMA/SC-FDMA basic principles, MIMO concepts and implementation, physical layer structures, access and non-access stratum protocols, and more. Enhance your knowledge and skills in LTE radio access and stay ahead in the rapidly evolving telecommunications industry. This self-paced on-demand distance learning course features illustrated course books, videos, tests and full tutor support. Who would benefit Engineers involved with equipment design, operation, optimization or monitoring of the LTE radio link. Prerequisites An engineering background with some knowledge of digital radio systems and general radio principles and techniques is assumed. A basic understanding of LTE and experience of 2G or 3G systems would be beneficial. Topic Areas Include LTE system architecture E-UTRAN architecture and interfaces OFDMA/SC-FDMA basic principles Defining orthogonality OFDMA features and benefits The Fourier transform OFDMA/SC-FDMA transmitter and receiver chains Modulation and coding, MIMO and the Cyclic Prefix MIMO concepts and implementation Physical layer structures Access and non-access stratum protocols Logical, Transport and Physical channels RRC, PDCP, MAC and RLC functions Resource allocation and scheduling strategies LTE-Advanced concepts Lower layer procedures Connection establishment Radio resource management procedures

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Course Code: LT1405 Course Summary A detailed technical description of the air interface signalling protocols employed in LTE. This includes the layer 3 Radio Resource Control (RRC) and layer 2 Packet data Convergence Protocol (PDCP), Radio Link Control (RLC) and Medium Access Control (MAC) protocols. The set of messages and functions supported by each protocol is examined in detail. Who would benefit This course would benefit engineers involved with equipment design, operation, and optimization or monitoring of the LTE radio link. Prerequisites An engineering background with some knowledge of digital radio systems and general radio principles and techniques is assumed. A basic understanding of LTE and experience of 2G or 3G systems would be beneficial. Topic Areas Include RRC - functions and procedures LTE RRC identities and states RRC message structure and ASN.1 Overview of RRC message types System information messages Paging RRC connection management Intra-E-UTRAN and Inter-system Mobility RRC security Security mode command Measurement DL/UL information transfer PDCP control messages RoHC configuration and control RLC control messages, ARQ management and segmentation MAC control elements End-to-End air interface signalling procedure examples

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Course Code: LT1302 Course Summary This course provides a deeper insight into the inner workings of the LTE air interface physical layer to meet the needs of air interface specialists. It offers an opportunity to look more deeply into topics such as OFDMA and SC-FDMA, specifically into the use of Fourier Transform methods and the construction and use of the Cyclic Prefix. The use of Zadoff-Chu sequences for some physical layer functions is also discussed, as are topics such as Reference Signals and the construction, administration and use of LTE physical channels. Who would benefit This course is designed for Radio Frequency (RF) engineers, radio planners, technical support staff and other specialists who have a need to look further into the LTE Air Interface than is possible with less specialised courses. Prerequisites A thorough understanding of the basic and more complex principles of the LTE Air Interface is essential and can be gained from attending Wray Castle’s ‘LTE Engineering Overview’ and ‘LTE Air Interface’ courses. Topic Areas Include OFDMA subcarrier orthogonality OFDMA fourier transform functions Physical signals and Zadoff-Chu modulation sequences SC-FDMA Downlink and Uplink physical carrier configuration Reference signal generation and functions Downlink physical channels: PBCH, PCFICH, PHICH, PDCCH Downlink concepts: REG, CCE, Aggregation Levels, PDCCH Search Spaces PUCCH operation PUCCH resources, regions, formats and operation Downlink Control Information (DCI) and Uplink Control Information (UCI) types and functions PRACH resources, formats, configurations and operation

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LTE and 5G systems are becoming increasingly essential in our daily lives, serving as the backbone for future communications and connected devices. As these technologies continue to evolve, the need for robust security measures becomes paramount. The LTE and 5G Security Training Course offered by Wray Castle provides a comprehensive overview of the security environment within LTE and 5G networks, covering key topics such as LTE Authentication and Key Agreement, security procedures, and 5G security architectures. Designed for engineers, managers, and other professionals looking to gain a technical understanding of LTE and 5G network security, this course delves into critical areas such as Access and Core Network security, 5G key derivation, and authentication procedures. Whether you are directly involved in the telecommunications industry or simply want to enhance your knowledge of cellular network security protocols, this course offers valuable insights into the evolving landscape of mobile security. By enrolling in this course, participants will gain a solid foundation in LTE and 5G security, equipping them with the knowledge and skills needed to navigate the complexities of modern mobile networks. Whether you are a seasoned telecom professional or new to the field, this training programme will provide you with the tools to stay ahead in an increasingly interconnected world. Who would benefit This course is designed for engineers, managers and other personnel who have a need to acquire a technical overview of the security environment employed within LTE and 5G networks. It will also be of benefit to those in the wider technical community who have a need to understand the security protocols employed by cellular networks. Prerequisites Attendance on, or equivalent knowledge, LTE Engineering or 5G Engineering would be useful.  Alternatively, experience working in this area of telecoms. Topic Areas Include LTE Security Architecture Authentication and Key Agreement Evolution to 5G 5G Non-Standalone Mode Security 5G Standalone Mode Security Also available as a Self-Study Online Learning Programme, learn more.

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LTE and 5G systems play a crucial role in our modern communication landscape, with the potential to revolutionize how we connect and interact with our devices. As these technologies become more prevalent, ensuring the security of our data and privacy becomes paramount. The LTE and 5G Security On-Demand Training Course offered by Wray Castle provides a comprehensive overview of the security measures implemented in LTE and 5G networks, covering key aspects such as authentication, key agreement, and network security protocols. This self-paced distance learning course delves into the intricacies of LTE and 5G security architectures, exploring the evolution from LTE to 5G and the security enhancements introduced in the latest generation of cellular networks. Participants will gain a deep understanding of the security procedures and key derivation methods used in both Non-standalone and Standalone Modes of 5G networks, as well as the authentication and interworking protocols involved in ensuring a secure communication environment. Designed for engineers, managers, and technical professionals working in the telecommunications industry, this course is also beneficial for individuals looking to broaden their knowledge of LTE and 5G security protocols. Whether you are new to the field or have prior experience in telecoms, this training course will equip you with the essential skills and insights needed to navigate the complex security challenges posed by LTE and 5G networks. This self-paced on-demand distance learning course features illustrated course books, videos, tests and full tutor support. Who would benefit This course is designed for engineers, managers and other personnel who have a need to acquire a technical overview of the security environment employed within LTE and 5G networks. It will also be of benefit to those in the wider technical community who have a need to understand the security protocols employed by cellular networks. Prerequisites Attendance on, or equivalent knowledge, LTE Engineering or 5G Engineering would be useful.  Alternatively, experience working in this area of telecoms. Topic Areas Include LTE Security Architecture Authentication and Key Agreement Evolution to 5G 5G Non-Standalone Mode Security 5G Standalone Mode Security

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A detailed technical description of the technologies available to be used to support the backhaul requirements of next generation 4G LTE access networks. This includes discussions of underlying backhaul architecture and concepts along with more detailed discussions of the technologies employed to support evolved Radio Access Networks (RANs), including: Carrier Ethernet, MPLS, fibre-optic transmission and packet-based microwave plus other high capacity backhaul technologies. Our LTE Backhaul Training Course (Course Code: LT1202) offers a comprehensive overview of the technologies essential for supporting the backhaul requirements of next-generation 4G LTE access networks. This course dives into the underlying backhaul architecture and concepts, as well as the technologies utilized to support evolved Radio Access Networks (RANs), including Carrier Ethernet, MPLS, fiber-optic transmission, packet-based microwave, and other high-capacity backhaul technologies.  Ideal for engineering and technical management professionals involved in the commissioning, design, deployment, or operation of mobile backhaul networks, this course covers a range of topic areas such as backhaul definitions, transport network layered architectures, RAN architectures and requirements, industry forums, and various backhaul options at Layers 1, 2, and 3. Participants will also explore synchronization, redundancy, security options, and Next Generation Mobile Network (NGMN) models, providing a comprehensive understanding of LTE backhaul technologies. By enrolling in our 1-day LTE Backhaul Training Course, participants will gain valuable insights into the latest technologies and best practices for optimizing backhaul networks in the era of 4G LTE. Whether you are looking to enhance your technical knowledge or stay ahead of industry trends, this course is designed to equip you with the skills and expertise needed to excel in the fast-paced world of mobile backhaul networks. Who would benefit This course is suitable for engineering and technical management staff who are involved in the commissioning, design, deployment or operation of mobile backhaul networks. Prerequisites An understanding of mobile network architecture and operation would be beneficial as would an appreciation of legacy backhaul technologies such as TDM or ATM. Topic Areas Include What is backhaul? Transport network layered architectures RAN architectures and requirements Industry forums Layer 1 backhaul options Backhaul architecture models Fibre optics and packet-based microwave Layer 2 backhaul options Ethernet and 802.1Q VLANs Q-in-Q VLAN stacking Carrier Ethernet MPLS Layer 3 backhaul options IP RAN in LTE Synchronization (NTPv4, IEEE1588v2/PTP, Sync-E) Redundancy (MSTP, G.8031/8032) Security options (IPsec, Security Gateway) Next Generation Mobile Network (NGMN) models VLAN traffic forwarding examples for Ethernet-based RANs

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This course provides a detailed overview of the issues related to the planning of backhaul services designed to support 4G LTE Cellular sites in both dedicated and single Radio Access Network (RAN) environments. The course focuses on planning techniques related to the most commonly-employed backhaul technologies used in conjunction with LTE, such as Ethernet, packet-based microwave and IP. It also covers aspects such as timing and security solutions and presents techniques that can be employed to estimate backhaul requirements and plan for suitable deployments. Join our LTE Backhaul Planning Training Course to gain a comprehensive understanding of the planning techniques and technologies essential for supporting 4G LTE Cellular sites. This course is designed for engineers working for network operators involved in the planning and implementation of RANs, specifically focusing on the backhaul region from the cell tower back to the core network. You will learn about backhaul technologies such as Ethernet, packet-based microwave, and IP, as well as timing and security solutions crucial for LTE deployments. Our 1-day course covers topics including backhaul overview, defining 4G backhaul requirements, transport network evolution, synchronization options, VLAN management, and more. By the end of the training, you will be equipped with the knowledge and skills to estimate backhaul requirements, plan suitable deployments, and ensure efficient backhaul solutions for 4G LTE networks. No specific prerequisites are required for this course, making it accessible to a wide range of professionals in the telecom industry. Sign up now to enhance your expertise in LTE backhaul planning and stay ahead in the rapidly evolving telecommunications sector. Who would benefit This course is designed for engineers working for network operators in the planning and implementation of RANs and in particular the backhaul region from the cell tower back to the core network and are looking at the options that exist to provide backhaul solutions suitable for 4G LTE networks. Prerequisites No specific prerequisites for this course although a good understanding of mobile networks and in particular the radio access part of 3GPP based networks. Topic Areas Include Backhaul overview Backhaul planning techniques Defining 4G backhaul requirements Backhaul technologies appropriate for 4G networks Transport network evolution Multi RAT and Multi Operator (MRMO) Synchronization options Cell throughput expectations Industry initiatives and forums Radio to transport QoS mapping VLAN management Backhaul traffic profile Backhaul QoS Planning exercise – cell throughput calculations

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Our LTE Billing and Charging Training Course provides a comprehensive technical overview of the billing and charging architecture specifically designed for 4G LTE networks. Participants will gain insights into LTE bearer, traffic flow, and Quality of Service (QoS) concepts, as well as an in-depth understanding of the architecture of both online and offline billing systems. Key nodes, interfaces, and protocols used for transporting billing and charging information will be explored, along with the interactions with the billing system during basic LTE procedures. This course is ideal for engineers, designers, managers, and individuals involved in the development, deployment, or operation of LTE billing and charging systems. Familiarity with the LTE Evolved Packet Core is assumed, and experience with 2G or 3G billing systems would be beneficial. Topics covered include EPS bearer concepts, LTE QoS models, packet flows, deep packet inspection, policy and charging control, flow-based charging, billing architecture, charging data capture points, protocols (Diameter, CAP), interfaces (Gy, Gz, Rf, Ro), charging criteria, CDR formats, CDR generation, and charging interaction with basic LTE procedures. Join us for this informative and practical training session to enhance your knowledge and skills in LTE billing and charging. Who would benefit Engineers, designers, managers and others involved in the development, deployment or operation of LTE billing and charging systems. Prerequisites Familiarity with the LTE Evolved Packet Core is assumed. Experience of 2G or 3G billing systems would be beneficial. Topic Areas Include Review of EPS bearer concepts and LTE QoS models Packet flows, service data flows and traffic flow aggregates Deep packet inspection – heuristic algorithms and bearer-aware applications Outline of policy and charging control LTE billing and charging concepts Flow-based charging Billing architecture Online and offline charging systems Charging data capture points (S-GW, PDN-GW) IMS charging capture points Charging Data Function (CDF) Protocols – Diameter, CAP Interfaces – Gy, Gz, Rf, Ro and others Charging criteria – time-based, volume-based, application-based CDR formats CDR generation Charging interaction with basic LTE procedures

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Our LTE Billing and Charging Training Course provides a comprehensive technical overview of the billing and charging architecture specifically designed for 4G LTE networks. Participants will gain insights into LTE bearer, traffic flow, and Quality of Service (QoS) concepts, as well as an in-depth understanding of the architecture of both online and offline billing systems. Key nodes, interfaces, and protocols used for transporting billing and charging information will be explored, along with the interactions with the billing system during basic LTE procedures. This course is ideal for engineers, designers, managers, and individuals involved in the development, deployment, or operation of LTE billing and charging systems. Familiarity with the LTE Evolved Packet Core is assumed, and experience with 2G or 3G billing systems would be beneficial. Topics covered include EPS bearer concepts, LTE QoS models, packet flows, deep packet inspection, policy and charging control, flow-based charging, billing architecture, charging data capture points, protocols (Diameter, CAP), interfaces (Gy, Gz, Rf, Ro), charging criteria, CDR formats, CDR generation, and charging interaction with basic LTE procedures. Join us for this informative and practical training session to enhance your knowledge and skills in LTE billing and charging. This self-paced on-demand distance learning course features illustrated course books, videos, tests and full tutor support. Who would benefit Engineers, designers, managers and others involved in the development, deployment or operation of LTE billing and charging systems. Prerequisites Familiarity with the LTE Evolved Packet Core is assumed. Experience of 2G or 3G billing systems would be beneficial. Topic Areas Include Review of EPS bearer concepts and LTE QoS models Packet flows, service data flows and traffic flow aggregates Deep packet inspection – heuristic algorithms and bearer-aware applications Outline of policy and charging control LTE billing and charging concepts Flow-based charging Billing architecture Online and offline charging systems Charging data capture points (S-GW, PDN-GW) IMS charging capture points Charging Data Function (CDF) Protocols – Diameter, CAP Interfaces – Gy, Gz, Rf, Ro and others Charging criteria – time-based, volume-based, application-based CDR formats CDR generation Charging interaction with basic LTE procedures

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This course is designed to provide an end-to-end view of the whole set of signalling messages that support some of the most fundamental LTE network operations, such as: initial attach, PDN Connectivity, EPS Bearer setup, bearer resource allocation, handover and detach. Each procedure is presented in terms of the progression of signalling messages exchanged and each message is explored in detail. The course provides details of messages belonging to the following signalling protocols: RRC, NAS, S1AP, X2AP, GTPv2-C and also the Diameter S6a, S13 and Gx applications. Our LTE End-to-End Signalling Training Course (Course Code: LT1301) offers a comprehensive overview of the signalling messages involved in key LTE network operations. From initial attach to handover and detach procedures, participants will gain a deep understanding of the signalling protocols including RRC, NAS, S1AP, X2AP, GTPv2-C, and Diameter S6a, S13, and Gx applications. This course is ideal for engineers, managers, and personnel seeking a technical overview of the complete LTE signalling environment, providing valuable insights into the management of fundamental LTE procedures. Participants in this course will benefit from a detailed exploration of air interface signalling protocols, E-UTRAN signalling protocols, and EPC signalling protocols. Topics covered include initial attach procedures, idle mode procedures, connected mode procedures, handover procedures, and detach procedures. Prerequisites include a basic understanding of LTE network architecture, services, and protocols, which can be acquired through our LTE Engineering Overview and LTE Evolved Packet Core Network (LT3604) courses. An understanding of IP would also be beneficial for participants. Gain the knowledge and skills needed to navigate the complexities of LTE signalling protocols and procedures, and enhance your expertise in managing LTE network operations effectively. Who would benefit This course is designed for engineers, managers and other personnel who have a need to acquire a technical overview of the total LTE signalling environment (not just signalling in one part of the network) and also those that require an end-to-end view of the management of fundamental LTE procedures. Prerequisites A basic understanding of LTE network architecture, services and protocols, which can be gained from attending the LTE Engineering Overview (LT3600) and LTE Evolved Packet Core Network (LT3604) courses. An understanding of IP would be beneficial. Topic Areas Include Air interface signalling protocols E-UTRAN signalling protocols EPC signalling protocols Initial attach procedures Idle mode procedures S1 release Tracking area update procedure Service request procedure with ISR enabled Extended service request for CS fallback Connected mode procedures Connection establishment, modification and release Bearer resource allocation triggering dedicated EPS bearer establishment Bearer resource modification triggering EPS bearer modification PDN connectivity request Handover procedures X2-based handover with direct forwarding S1-based handover with S-GW change with indirect forwarding Inter-System PS handover to UMTS/HSPA without forwarding Detach procedures Also available as a Self-Study Online Learning Programme, learn more.

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Course Code: LT3600 Course Summary A technical introduction and overview of LTE and LTE-Advanced, including the air interface, radio access network, core network and other key associated technologies. Who would benefit This course is intended for engineers either new to, or already working in, mobile communications. Prerequisites Familiarity with telecommunications and general engineering terminology is assumed and some understanding of 2G and 3G cellular systems would be beneficial. Topic Areas Include High level architecture of LTE Basic principles of OFDMA and SC-FDMA Air interface protocol stack Structure of the air interface physical layer E-UTRAN architecture, interfaces and protocols EPC architecture, interfaces and protocols LTE state diagrams Principles of bearers and Quality of Service (QoS) Voice options for LTE Power-on procedures UE procedures in idle and connected modes Enhancements in LTE-Advanced Also available as a Self-Study Online Learning Programme, learn more.

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A technical introduction and overview of LTE and LTE-Advanced, including the air interface, radio access network, core network and other key associated technologies. This self-paced on-demand distance learning course features illustrated course books, videos, tests and full tutor support. Who would benefit This course is intended for engineers either new to, or already working in, mobile communications. Prerequisites Familiarity with telecommunications and general engineering terminology is assumed and some understanding of 2G and 3G cellular systems would be beneficial. Topic Areas Include High level architecture of LTE Basic principles of OFDMA and SC-FDMA Air interface protocol stack Structure of the air interface physical layer E-UTRAN architecture, interfaces and protocols EPC architecture, interfaces and protocols LTE state diagrams Principles of bearers and Quality of Service (QoS) Voice options for LTE Power-on procedures UE procedures in idle and connected modes Enhancements in LTE-Advanced

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Our LTE Evolved Packet Core Network Training Course is designed to provide a comprehensive technical understanding of the Evolved Packet Core (EPC) for LTE systems. In this course, participants will learn about EPC architecture, interfaces, service provision concepts, application of IP technologies, overall protocol architectures, and optionally, a review of IMS functionality Engineers and other staff involved with switching or transmission architecture, optimization, network management, network testing, or monitoring of the EPC would greatly benefit from this training. Participants are expected to have an engineering background with some knowledge of core network technologies, including IP. Experience with 2G or 3G systems would also be beneficial for a better understanding of the course material. The course covers a wide range of topic areas, including the high-level architecture of LTE, functions of key EPC components like MME, S-GW, PDN-GW, HSS, and PCRF, LTE state diagrams, inter-operation with 2G, 3G, and non-3GPP networks, voice options for LTE, principles of bearers and Quality of Service (QoS), data transport in the EPC, policy and charging control architecture, IETF and 3GPP protocols in the EPC, power-on procedures, UE procedures in idle and connected modes, enhancements in LTE-Advanced, and optionally, an overview of the functions and architecture of the IMS. Who would benefit Engineers and other staff involved with switching or transmission architecture, optimization, network management, network testing or monitoring of the EPC. Prerequisites An engineering background with some knowledge of core network technologies, including IP, is assumed. Experience of 2G or 3G systems would be beneficial. Topic Areas Include High level architecture of LTE Functions of the MME, S-GW, PDN-GW, HSS and PCRF LTE state diagrams Inter-operation with 2G, 3G and non-3GPP networks Voice options for LTE Principles of bearers and Quality of Service (QoS) Data transport in the EPC Policy and charging control architecture IETF protocols in the EPC, including SCTP, DiffServ and Diameter 3GPP protocols in the EPC, including GTP and S1-AP Power-on procedures UE procedures in idle and connected modes Enhancements in LTE-Advanced [Optional] Overview of the functions and architecture of the IMS Also available as a Self-Study Online Learning Programme, learn more.

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Our LTE Evolved Packet Core Network Training Course is designed to provide a comprehensive technical understanding of the Evolved Packet Core (EPC) for LTE systems. In this course, participants will learn about EPC architecture, interfaces, service provision concepts, application of IP technologies, overall protocol architectures, and optionally, a review of IMS functionality Engineers and other staff involved with switching or transmission architecture, optimization, network management, network testing, or monitoring of the EPC would greatly benefit from this training. Participants are expected to have an engineering background with some knowledge of core network technologies, including IP. Experience with 2G or 3G systems would also be beneficial for a better understanding of the course material. The course covers a wide range of topic areas, including the high-level architecture of LTE, functions of key EPC components like MME, S-GW, PDN-GW, HSS, and PCRF, LTE state diagrams, inter-operation with 2G, 3G, and non-3GPP networks, voice options for LTE, principles of bearers and Quality of Service (QoS), data transport in the EPC, policy and charging control architecture, IETF and 3GPP protocols in the EPC, power-on procedures, UE procedures in idle and connected modes, enhancements in LTE-Advanced, and optionally, an overview of the functions and architecture of the IMS. This self-paced on-demand distance learning course features illustrated course books, videos, tests and full tutor support. Who would benefit Engineers and other staff involved with switching or transmission architecture, optimization, network management, network testing or monitoring of the EPC. Prerequisites An engineering background with some knowledge of core network technologies, including IP, is assumed. Experience of 2G or 3G systems would be beneficial. Topic Areas Include High level architecture of LTE Functions of the MME, S-GW, PDN-GW, HSS and PCRF LTE state diagrams Inter-operation with 2G, 3G and non-3GPP networks Voice options for LTE Principles of bearers and Quality of Service (QoS) Data transport in the EPC Policy and charging control architecture IETF protocols in the EPC, including SCTP, DiffServ and Diameter 3GPP protocols in the EPC, including GTP and S1-AP Power-on procedures UE procedures in idle and connected modes Enhancements in LTE-Advance

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Course Code: LT1001 Course Summary An introduction to the principles and techniques that relate to the parameters available in the LTE Radio Access Network (RAN). This includes cell configuration, idle mode parameters and connected mode parameters. All elements are reinforced through classroom exercises and tool demonstrations. Who would benefit This course is intended for experienced radio access optimizers and those involved with device development or functionality testing for LTE-based networks. Prerequisites This course assumes an engineering background with some knowledge of digital radio systems in general and good knowledge of the LTE air interface structure and operation. Experience of parameter tuning for 2G or 3G systems would be useful. Topic Areas Include Radio spectrum and radio channel organization Key LTE radio metrics Interpreting drive survey results Identifying key air interface parameters Verifying settings for radio parameters Performance of a single frequency network Network access parameters Cell selection and reselections Inter-technology cell reselections Prioritized cell reselections Connected mode measurements Triggered measurement reports LTE handovers Analysing handovers Inter-technology handovers Management of discontinuous reception Includes exercises.

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Course Code: LT1314 Course Summary Our LTE Quality of Service training course is designed to provide a comprehensive understanding of the key concepts and principles behind Quality of Service (QoS) in LTE networks. This course delves into the End-to-End EPS Bearer and the underlying Transport Network Layer (TNL) where QoS is crucially applied. Participants will explore the main QoS concepts and learn about the interworking between LTE QoS and other network types such as UMTS, GPRS, and IMS.This course is ideal for engineering and technical management professionals who need a technical overview of the technologies and techniques utilized by 4G LTE networks to define and control the QoS for user connections. Participants are expected to have an engineering background with some knowledge of telecommunications technologies and protocols. Previous LTE training and familiarity with QoS mechanisms in legacy 2G and 3G networks would be beneficial.By enrolling in this course, you will gain insights into topics such as E-UTRAN architecture and interfaces, EPS Bearer and PDN Connectivity options, LTE QoS parameters, QCI, ARP, QoS Management, LTE PCC mechanisms, TNL concepts, DiffServ, MPLS, Ethernet QoS, and much more. Enhance your knowledge and skills in LTE QoS with our expert-led training course. Who would benefit This course is suitable for engineering and technical management staff who require a technical overview of the technologies and techniques employed by 4G LTE networks to define and control the QoS applied to user connections. Prerequisites An engineering background with some knowledge of telecommunications technologies and protocols is assumed and previous LTE training would be beneficial, as would knowledge of QoS mechanisms in legacy 2G and 3G networks. Topic Areas Include E-UTRAN architecture and interfaces EPS Bearer and PDN Connectivity options and operations User plane connection concepts, packet flows, SDFs and Traffic Flow Aggregates LTE QoS parameters, QCI, ARP QoS parameter representation in LTE signalling protocols QoS Management – TFTs and packet filters LTE PCC (Policy and Charging Control) mechanisms PCC Rules, function and structure Interaction between PCC elements and internal and external network nodes Mapping LTE QoS to legacy network schemes Measuring QoS TNL concepts, architecture and QoS mechanisms DiffServ, MPLS and Ethernet QoS End-to-End QoS Architecture and Operation Network node QoS functions QoS influence on LTE handovers Also available as a Self-Study Online Learning Programme, learn more.

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Our LTE Quality of Service training course is designed to provide a comprehensive understanding of the key concepts and principles behind Quality of Service (QoS) in LTE networks. This course delves into the End-to-End EPS Bearer and the underlying Transport Network Layer (TNL) where QoS is crucially applied. Participants will explore the main QoS concepts and learn about the interworking between LTE QoS and other network types such as UMTS, GPRS, and IMS.This course is ideal for engineering and technical management professionals who need a technical overview of the technologies and techniques utilized by 4G LTE networks to define and control the QoS for user connections. Participants are expected to have an engineering background with some knowledge of telecommunications technologies and protocols. Previous LTE training and familiarity with QoS mechanisms in legacy 2G and 3G networks would be beneficial.By enrolling in this course, you will gain insights into topics such as E-UTRAN architecture and interfaces, EPS Bearer and PDN Connectivity options, LTE QoS parameters, QCI, ARP, QoS Management, LTE PCC mechanisms, TNL concepts, DiffServ, MPLS, Ethernet QoS, and much more. Enhance your knowledge and skills in LTE QoS with our expert-led training course. This self-paced on-demand distance learning course features illustrated course books, videos, tests and full tutor support. Who would benefit This course is suitable for engineering and technical management staff who require a technical overview of the technologies and techniques employed by 4G LTE networks to define and control the QoS applied to user connections. Prerequisites An engineering background with some knowledge of telecommunications technologies and protocols is assumed and previous LTE training would be beneficial, as would knowledge of QoS mechanisms in legacy 2G and 3G networks. Topic Areas Include E-UTRAN architecture and interfaces EPS Bearer and PDN Connectivity options and operations User plane connection concepts, packet flows, SDFs and Traffic Flow Aggregates LTE QoS parameters, QCI, ARP QoS parameter representation in LTE signalling protocols QoS Management – TFTs and packet filters LTE PCC (Policy and Charging Control) mechanisms PCC Rules, function and structure Interaction between PCC elements and internal and external network nodes Mapping LTE QoS to legacy network schemes Measuring QoS TNL concepts, architecture and QoS mechanisms DiffServ, MPLS and Ethernet QoS End-to-End QoS Architecture and Operation Network node QoS functions QoS influence on LTE handovers

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Our LTE Radio Access Network training course provides a comprehensive technical overview of the Radio Access Network (RAN) for LTE systems. This course covers topics such as E-UTRAN architecture, configuration options, security functions, core network interactions, and bearer establishment procedures. Engineers involved in transmission, architecture design, optimization, network management, or monitoring of the LTE RAN will benefit from this course. Participants are expected to have an engineering background with some knowledge of telecommunications technologies and protocols. Experience with 2G or 3G systems would also be beneficial. The course includes in-depth discussions on E-UTRAN architecture and interfaces, frequency bands and channels, cell structures, handover management, security functions, and more. Practical exercises are included to enhance learning and understanding of the material. Join us to gain valuable insights into LTE RAN technologies and enhance your skills in managing and optimizing LTE networks. Don't miss this opportunity to expand your knowledge and expertise in the field of LTE radio access networks. Who would benefit Engineers involved with transmission or architecture design, optimization, network management or monitoring of the LTE RAN. Prerequisites An engineering background with some knowledge of telecommunications technologies and protocols is assumed. Experience of 2G or 3G systems would be beneficial. Topic Areas Include E-UTRAN architecture and interfaces E-UTRAN frequency bands and channels Cell structures, hierarchies and sizes LTE cell site configurations Tracking Areas (TA) and TA list management Handover management E-UTRAN Self Optimizing Network (SON) functions Access stratum and access network security Interaction between eNB and MME/S-GW devices Logical and physical connectivity to EPC nodes LTE E-UTRAN and small cell deployments Relay nodes, LIPA, SIPTO and LPP S1AP (S1 Application Protocol) message structures and operation X2AP (X2 Application Protocol) message structures and operation Connection establishment Overview of interaction between E-UTRAN protocols during basic LTE procedures Includes exercises.

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Our LTE Security Training Course offers a comprehensive overview of the security measures implemented in LTE networks. This course covers topics such as LTE Authentication and Key Agreement (AKA) procedures, Non-Access Stratum, Access Stratum, Access Network, and Core Network security. Engineers, managers, and other professionals looking to gain a technical understanding of LTE network security will benefit from this course. It is also suitable for individuals in the broader technical community who need to grasp the security protocols used in cellular networks. Participants are expected to have prior knowledge of LTE networks, either through attending our LTE Engineering Overview course (LT3600) or possessing equivalent basic LTE knowledge. Familiarity with legacy 2G and 3G security procedures, as well as a basic understanding of LTE network architecture and functionality, would be advantageous. Join us for this training to delve into security threats and mitigations, 3GPP security strata, authentication processes, key agreement procedures, security algorithms, and more. Upgrade your skills and stay ahead in the dynamic world of LTE security with our expert-led training. Who would benefit This course is designed for engineers working for network operators in the planning and implementation of RANs. Prerequisites This course assumes an engineering background, as well as a good understanding of LTE. Topic Areas Include E-UTRAN architecture and protocols EPS bearers and QoS Subscriber traffic profiling Signalling event traffic modelling Signalling events and event dimensioning RAN synchronization options and overheads Dimensioning O&M Air interface structure and bandwidth options Maximum theoretical throughput estimations Dimensioning the RAN for voice traffic CQI and user plane traffic dimensioning

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Our LTE RAN Signalling Training Course  is designed for engineers involved in equipment design, operation, optimization, or monitoring of the LTE Radio Access Network. This 1-day course provides participants with a comprehensive understanding of LTE signalling protocols and interfaces. Participants are expected to have familiarity with LTE and the LTE RAN, which can be gained from attending our LTE Engineering Overview (LT3600) course. Experience with 2G or 3G air interface signalling systems would also be beneficial. Please note that this course is not suitable for those who have attended the LTE RAN course (LT3603) as it covers similar signalling topics. The course covers essential topics such as LTE Signalling Protocols and Interfaces, S1 Interface Messages and Procedures, and X2 Interface Messages and Procedures. By the end of the training, participants will have a solid foundation in LTE RAN signalling, enabling them to effectively design, operate, optimize, and monitor LTE networks. Who Would Benefit Engineers involved with equipment design, operation, optimization or monitoring of the LTE Radio Access Network. Prerequisites Familiarity with LTE and the LTE RAN is assumed and can be gained from attending the LTE Engineering Overview (LT3600) course. Experience of 2G or 3G air interface signalling systems would be beneficial. This course is not suitable for those who have attended the LTE RAN course (LT3603) as it covers similar signalling topics. Contents LTE Signalling Protocols and Interfaces S1 Interface Messages and Procedures X2 Interface Messages and Procedures

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Course Code: LT1303 Course Summary This course provides a detailed overview of the security environment developed for LTE networks, including the LTE Authentication and Key Agreement (AKA) procedures and the provisions for Non-Access Stratum, Access Stratum, Access Network and Core Network security. Who would benefit This course is designed for engineers, managers and other personnel who have a need to acquire a technical overview of the security environment employed within LTE networks. It will also be of benefit to those in the wider technical community who have a need to understand the security protocols employed by cellular networks. Prerequisites Attendance on this course assumes previous attendance on the LTE Engineering Overview course (LT3600) or equivalent basic LTE knowledge. An understanding of legacy 2G and 3G security procedures would be an advantage as would a basic understanding of LTE network architecture and functionality. Topic Areas Include Security threats and mitigations 3GPP security strata and the LTE security architecture Non-Access Stratum, Access Stratum, Access Network and Core Network Security Overall AKA process Security contexts Subscriber and UE identifiers Authentication process, vectors and algorithms Key agreement procedures AKA keys and algorithms Key hierarchy, key sets and key set identifiers Key derivation functions KeNB chaining and the NH (Next Hop) key EEA and EIA security algorithms Security procedures

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LTE, SON, and Small Cell Deployment Training Course is a comprehensive program designed to explore the intricacies of Self-Organizing Networks (SON) and the deployment of small cells and femtocells. This course delves into key features and procedures that enable self-configuration within a SON, as well as addressing issues related to femtocell deployment such as interference management and control techniques.  Ideal for professionals working in planning-related roles for network operators or as consultants, this course assumes existing knowledge of cell planning principles in a mobile environment. Participants will benefit from a deep dive into topics like SON drivers, automatic neighbor relation (ANR), mobility robustness optimization, and deployment configurations. By the end of this 1-day course consisting of 2 live online sessions, attendees will have a solid understanding of the complexities and best practices surrounding LTE, SON, and small cell deployment. Enhance your expertise in small cell deployment and stay ahead in the ever-evolving telecommunications industry with our LTE, SON, and Small Cell Deployment Training Course. Gain valuable insights into self-configuring networks, interference management, and deployment configurations to optimize network performance and efficiency. Join us for 2 live online sessions and deepen your knowledge of SON drivers, automatic PCI configuration, and mobility load balancing. Don't miss this opportunity to advance your skills and propel your career in mobile network planning and deployment. Who would benefit This course would benefit those with a keen interest in the issues surrounding the deployment of small cells and femtocells in particular. This might include those working in planning-related roles for network operators or as individual consultants. Prerequisites This course assumes existing knowledge of cell planning principles in a mobile environment. Topic Areas Include SON – drivers Self-configuration Automatic Neighbour Relation (ANR) Automatic PCI configuration Inter-Cell interference Co-ordination (ISIC) Mobility robustness optimization Mobility load balancing Energy saving Deployment configurations Control of downlink interference

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LTE technologies are at the forefront of the telecommunications industry, offering faster speeds and more reliable connections for both mobile and fixed services. Our LTE Technologies, Services, and Markets training course (Course Code: LT3601) provides a comprehensive overview of the Evolved Packet System (EPS) that makes up the LTE system. This course is designed for non-technical professionals who are new to or already working in the telecommunications sector, offering a non-technical introduction to LTE and its place in the evolving telecom market. With 2 live online sessions spread over 1 day, participants will gain an understanding of LTE services, market segments, target users, key features, network architecture, and technology roadmaps toward LTE. No technical knowledge is assumed, making this course accessible to individuals with varying levels of experience in the industry. By exploring the applications and synergies of LTE technology, participants will be equipped with the knowledge needed to navigate the dynamic landscape of LTE services and markets. Join us for this informative training course to stay ahead in the telecommunications industry and gain insights into the advancements and opportunities offered by LTE technologies. Whether you are looking to expand your knowledge or enhance your skill set, this course will provide you with valuable insights into the world of LTE and its impact on the telecommunications sector. Who would benefit This course is intended for non-technical professionals either new to, or already working in, the mobile or fixed telecommunications sector. Prerequisites No technical knowledge is assumed but some familiarity with the telecommunications industry would be beneficial. Topic Areas Include The evolving mobile telecommunications market LTE services and service aims LTE market segments LTE target users Key features of LTE LTE network terminology E-UTRAN architecture Evolved Packet Core (EPC) architecture Why all-IP? LTE for fixed and mobile services Technology roadmaps toward LTE LTE timescales Applications for LTE LTE technology synergies

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This LTE Voice CS Fallback training course is designed to provide a comprehensive technical understanding of how CS fallback is used to deliver LTE voice services. Participants will gain insights into the technical aspects of CS fallback architecture, SGs Application Protocol (SGsAP), combined attach procedures, call setup options, roaming retry, SMS message delivery, and more.  Ideal for engineering and technical management professionals seeking to deepen their knowledge of LTE voice delivery options, this course is a valuable resource for those looking to enhance their skills in this specialized area. Prior attendance on the LTE Engineering Overview course (LT3600) or equivalent basic LTE knowledge is recommended, along with a working knowledge of IP. Join us for this 1-day course where industry experts will guide you through the intricacies of LTE voice CS fallback. Enhance your technical expertise and stay ahead in the rapidly evolving field of LTE technology with this insightful and practical training opportunity. Who would benefit This course is suitable for engineering and technical management staff who require a technical description of the options that exist in LTE for delivering voice and other real-time traffic types by means of CS fallback. Prerequisites Attendance on this course assumes previous attendance on the LTE Engineering Overview course (LT3600) or equivalent basic LTE knowledge (although a recap of basic LTE architecture and concepts is provided at the start of the course) and also assumes a working knowledge of IP. Topic Areas Include Technical overview of LTE Introduction to the options for LTE voice CS fallback architecture SGs Application Protocol (SGsAP) Combined attach procedure Alignment of tracking and location areas CS fallback call setup options Mobile-originated and mobile-terminated call setup procedures Roaming retry and roaming forwarding Delivery of SMS messages over the SGs interface

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Our LTE Voice (VoLTE) training course is designed to provide a comprehensive technical understanding of how VoIP services are delivered using LTE and the IP Multimedia Subsystem. This course is ideal for engineering and technical management professionals looking to gain in-depth knowledge of the options available in LTE for delivering voice and real-time traffic through VoIP.  Topics covered in this course include a technical overview of LTE, introduction to LTE voice options, IP Multimedia Subsystem (IMS) overview, Voice over LTE (VoLTE) system architecture, VoLTE protocols, services, and codecs, VoLTE call setup procedures, SRVCC, SMS delivery over IMS, VoLTE emergency calls, and Voice over Wi-Fi.  Whether you're new to LTE or looking to enhance your existing knowledge, our 2-day course provide a detailed exploration of VoLTE technology. Join us to expand your expertise and stay ahead in the rapidly evolving world of telecommunications. Who would benefit This course is suitable for engineering and technical management staff who require a technical description of the options that exist in LTE for delivering voice and other real-time traffic types by means of VoIP. Prerequisites Attendance on this course assumes previous attendance on the LTE Engineering Overview course (LT3600) or equivalent basic LTE knowledge (although a recap of basic LTE architecture and concepts is provided at the start of the course) and also assumes a working knowledge of IP. Topic Areas Include Technical overview of LTE Introduction to the options for LTE voice Technical overview of the IP Multimedia Subsystem (IMS) System architecture for Voice over LTE (VoLTE) VoLTE protocols, services and codecs VoLTE power-on and registration procedures VoLTE call setup procedures Access domain selection Single Radio Voice Call Continuity (SRVCC) Delivery of SMS messages over the IMS VoLTE emergency calls Voice over Wi-Fi Also available as a Self-Study Online Learning Programme, learn more.

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Our LTE Voice (VoLTE) training course is designed to provide a comprehensive technical understanding of how VoIP services are delivered using LTE and the IP Multimedia Subsystem. This course is ideal for engineering and technical management professionals looking to gain in-depth knowledge of the options available in LTE for delivering voice and real-time traffic through VoIP.  Topics covered in this course include a technical overview of LTE, introduction to LTE voice options, IP Multimedia Subsystem (IMS) overview, Voice over LTE (VoLTE) system architecture, VoLTE protocols, services, and codecs, VoLTE call setup procedures, SRVCC, SMS delivery over IMS, VoLTE emergency calls, and Voice over Wi-Fi.  This self-paced on-demand distance learning course features illustrated course books, videos, tests and full tutor support. Who would benefit This course is suitable for engineering and technical management staff who require a technical description of the options that exist in LTE for delivering voice and other real-time traffic types by means of VoIP. Prerequisites Attendance on this course assumes previous attendance on the LTE Engineering Overview course (LT3600) or equivalent basic LTE knowledge (although a recap of basic LTE architecture and concepts is provided at the start of the course) and also assumes a working knowledge of IP. Topic Areas Include Technical overview of LTE Introduction to the options for LTE voice Technical overview of the IP Multimedia Subsystem (IMS) System architecture for Voice over LTE (VoLTE) VoLTE protocols, services and codecs VoLTE power-on and registration procedures VoLTE call setup procedures Access domain selection Single Radio Voice Call Continuity (SRVCC) Delivery of SMS messages over the IMS VoLTE emergency calls Voice over Wi-Fi

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Our LTE Voice and IMS Overview training course  is designed to provide a comprehensive technical understanding of the IP Multimedia Subsystem (IMS) and how it is utilized for delivering VoIP services over LTE networks. This 3-day course is ideal for engineering and technical management professionals seeking in-depth knowledge of LTE voice delivery and real-time traffic handling. Participants will gain insights into various topics including LTE technical overview, SIP and SDP protocols, IMS architecture and operation, VoLTE system architecture, protocols, services, and codecs, as well as emergency call procedures and Voice over Wi-Fi. Prerequisites for this course include prior attendance of our LTE Engineering Overview course  or equivalent basic LTE knowledge, along with a working understanding of IP. By enrolling in our LTE Voice and IMS Overview training, participants will enhance their expertise in LTE voice delivery mechanisms and gain valuable insights into the operation of the IP Multimedia Subsystem. Stay ahead in the rapidly evolving telecommunications industry with our specialized training designed to equip you with the necessary skills and knowledge for successful implementation of VoIP services over LTE networks. Who would benefit This course is suitable for engineering and technical management staff who require a technical description of the options that exist in LTE and the IP multimedia subsystem for delivering voice and other real-time traffic types, that would traditionally have been carried by Circuit-Switched (CS) technologies. Prerequisites Attendance on this course assumes previous attendance on the LTE Engineering Overview course (LT3600) or equivalent basic LTE knowledge (although a recap of basic LTE architecture and concepts is provided at the start of the course) and also assumes a working knowledge of IP. Topic Areas Include Technical overview of LTE Introduction to the options for LTE voice Session Initiation Protocol (SIP) Session Description Protocol (SDP) Architecture and operation of the IP Multimedia Subsystem (IMS) Control and user plane functions of the IMS Service delivery in the IMS System architecture for Voice over LTE (VoLTE) VoLTE protocols, services and codecs VoLTE power-on and registration procedures VoLTE call setup procedures Access domain selection Single Radio Voice Call Continuity (SRVCC) Delivery of SMS messages over the IMS VoLTE emergency calls Voice over Wi-Fi

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Our LTE Voice Options and Operations Training Course (Course Code: LT1002) is designed to provide a comprehensive technical understanding of the methods available for delivering voice services over LTE networks. This 3-day course is ideal for engineering and technical management professionals seeking in-depth knowledge of LTE voice delivery and real-time traffic handling. Participants will gain insight into LTE voice options, CS fallback architecture, IMS, VoLTE protocols, SRVCC, voice over Wi-Fi, and more. Prerequisites for this course include prior attendance at the LTE Engineering Overview course (LT3600) or equivalent basic LTE knowledge, as well as a working understanding of IP. Our expert instructors will provide a recap of basic LTE concepts at the beginning of the course to ensure all participants are on the same page. By the end of the training, attendees will have a solid grasp of LTE voice delivery methods and the technical intricacies involved in offering voice services over LTE networks. Join us for our LTE Voice Options and Operations Training Course to enhance your technical skills and stay ahead in the rapidly evolving world of telecommunications. Gain valuable insights into the latest advancements in LTE voice technology and learn how to effectively implement voice services over LTE networks. Don't miss this opportunity to expand your knowledge and expertise in LTE voice operations. Who would benefit This course is suitable for engineering and technical management staff who require a technical description of the options that exist in LTE for delivering voice and other real-time traffic types, that would traditionally have been carried by Circuit Switched (CS) technologies. Prerequisites Attendance on this course assumes previous attendance on the LTE Engineering Overview course (LT3600) or equivalent basic LTE knowledge (although a recap of basic LTE architecture and concepts is provided at the start of the course) and also assumes a working knowledge of IP. Topic Areas Include Technical overview of LTE Introduction to the options for LTE voice CS fallback architecture and protocols CS fallback attach and call setup procedures Technical overview of the IMS System architecture for Voice over LTE (VoLTE) VoLTE protocols, services and codecs VoLTE power-on and registration procedures VoLTE call setup procedures Access domain selection Single Radio Voice Call Continuity (SRVCC) Delivery of SMS messages over the IMS VoLTE emergency calls Voice over Wi-Fi [Optional] Voice over LTE by Generic Access (VoLGA)

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LTE Voice Overview Training Course provides a comprehensive technical introduction to LTE voice methods. This course is designed for engineering and technical management professionals who need a clear understanding of the options available for delivering voice services over LTE networks. Participants will gain insight into the architecture, protocols, and codecs for Voice over LTE (VoLTE), as well as learn about CS fallback, IMS, SRVCC, and other key topics related to LTE voice technology. Prerequisites for attending this course include prior completion of the LTE Engineering Overview course or equivalent basic knowledge of LTE. However, a recap of fundamental LTE concepts and architecture is provided at the beginning of the training session. By the end of the 1-day course, participants will have a solid understanding of LTE voice technologies and procedures, including power-on, registration, call setup, SMS, emergency calls, and Voice over Wi-Fi. Enhance your expertise in LTE voice with this informative and practical training course. Who would benefit This course is suitable for engineering and technical management staff who require a concise introduction to the options that exist in LTE for the delivery of voice services. Prerequisites Attendance on this course assumes previous attendance on the LTE Engineering Overview course (LT3600) or equivalent basic LTE knowledge (although a recap of basic LTE architecture and concepts is provided at the start of the course). Topic Areas Include Technical overview of LTE Introduction to the options for LTE voice Architecture and operation of CS fallback Overview of the IMS System architecture, protocols and codecs for Voice over LTE (VoLTE) VoLTE procedures for power-on, registration and call setup Single Radio Voice Call Continuity (SRVCC) Additional topics such as SMS, emergency calls and Voice over Wi-Fi

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This course covers the following topics: Overview of M2M; Architecture of M2M; M2M Applications; M2M Networks and Communication Technologies; M2M Ecosystem; M2M Market and Business Dynamics; M2M Security; M2M Standardization and Regulatory Issues; M2M Challenges and Issues and M2M Applications and Case Studies. Machine Type Communications for LTE is a crucial training course designed to provide participants with a comprehensive understanding of LTE technologies for the Internet of Things (IoT). Participants will be introduced to LTE and the Internet of Things, gaining insights into the latest advancements and applications in machine type communications. The course covers essential topics such as LTE technologies for the IoT, equipping attendees with the necessary expertise to navigate the complexities of this cutting-edge technology. By enrolling in this training course, participants can stay ahead of the curve and gain a competitive edge in the dynamic world of LTE and machine type communications. Whether you are a seasoned professional or new to the field, this course offers valuable insights and practical knowledge to help you succeed in your career. Who would benefit This course is designed for telecoms professionals who are involved in the planning, design, implementation, operations and management of M2M networks. This course is built in accordance with ETSI/3GPP, OMA and the Internet of Things Architecture (IOT- A) and so is primarily aimed at cellular implementations of M2M. Prerequisites This course comprehensively covers the main topic areas of M2M and as such there are no real prerequisites although a good understanding of telecoms networks and IP routing would be beneficial. Topic Areas Include Introduction to M2M M2M Applications M2M Standardization M2M Protocols and Networking Technologies M2M Security Cellular M2M M2M Challenges and Issues M2M Ecosystem and Market

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Machine Type Communications for LTE is a crucial training course designed to provide participants with a comprehensive understanding of LTE technologies for the Internet of Things (IoT).  Participants will be introduced to LTE and the Internet of Things, gaining insights into the latest advancements and applications in machine type communications. The course covers essential topics such as LTE technologies for the IoT, equipping attendees with the necessary expertise to navigate the complexities of this cutting-edge technology. By enrolling in this training course, participants can stay ahead of the curve and gain a competitive edge in the dynamic world of LTE and machine type communications. Whether you are a seasoned professional or new to the field, this course offers valuable insights and practical knowledge to help you succeed in your career. Course Contents Introduction to LTE and the Internet of Things (IoT) LTE Technologies for the IoT

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The business world is ever-changing, with focus shifting constantly as industries develop and evolve. Increasing requirement for good governance, however, has been a constant focus over a number of decades now. Companies that embrace good governance as part of their core value-system are invariably in a much better position as they scale, or as they expand /evolve their operating footprint to embrace new sectors or geographies. At its most effective, good governance, is felt throughout the organisation – with shareholders, employees and customers all more likely to engage in a positive and engaging way as the organisation develops. At its worst, bad governance directly contributes to dangerous working conditions or environmental disaster – and very likely, costly lawsuits, and competitive disadvantage. This short module is designed to complement our other business programmes by exploring key aspects of governance and what it all means for businesses. Comprehensive discussions and examples are used to illustrate the wide and varied topics covered, the critical focus areas within each topic, and how progressive governance can be used to positively impact, not only the business, but wider society. Prerequisites None Topics Covered include:                                                     Health and Safety Data Protection Ethical Financial Reporting Employment Practices Charity / Social Engagement Environment and Sustainability Aligning with the UN Sustainable Development Goals Consequential Thinking – The Four-Way Test Sustainability – Example Approached

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Course Code: RP1601 The course covers all of the essential aspects of planning point-to-point microwave link systems, from conception to commissioning. Who would benefit Those involved in the specification, planning and maintenance of fixed microwave radio transmission, backhaul and access links. Prerequisites A good knowledge of radio principles, or a background in telecommunications engineering, or attendance on the Radio Principles course (RP1301). Topic Areas Include ITU-R and CEPT recommendations ETSI standards Spectrum management and channel plans Frequency assignment Digital radio performance characteristics Noise and interference in radio systems Reliability, availability and performance objectives Microwave antennas and feeders Radiation Pattern Envelopes (RPEs) Refraction, k-factor, reflection and diffraction Path profiling and Fresnel zone clearance Power budgets Rain and Multipath/Dispersive fade margins Dimensioning space and frequency diversity Interference management Practical link planning exercises Practical exercises, including design of a fixed link transmission network.

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A comprehensive Telecoms Mini-MBA programme covering all the essential elements needed to effectively lead and manage in Telecoms and related industries The Mini-MBA in Telecoms explores the key areas for business success, bringing the concepts together within a comprehensive team-based business simulation that runs throughout the programme - allowing the ideas to be developed and applied to a realistic and challenging simulated environment. This programme delivers comprehensive training for mid-senior managers, directors, specialists, consultants and identified talent working within the telecommunications, connected innovation, and adjacent industries. Focused Modules: Industry, Business & Tech Insight Telecoms Technology Evaluating & Optimising Business Models Controlling the Finances Leading, Developing & Supporting Effective People Creating & Communicating  Compelling Customer Propositions Maintaining Effective Governance Optimising & Transformation (incl. Platforms & Processes) Who should attend? The programme is ideal for those in a telecoms-related management, leadership, or consultancy position within: Corporate organisations , working to ... grow and develop new and existing departments or divisions align departments or divisions to corporate strategy and vision Growing businesses that are making the transition to a sustainable long-term proposition Start-up departments Mini-MBA in Telecoms - Key benefits: Successfully complete the Mini-MBA in Telecoms to: Rapidly enhance your knowledge and competencies in the key areas of telecoms business. Establish a Blueprint for effectively leading your business or team. Implement all key aspects of the blueprint consistently and coherently. Develop more effective strategies, key performance enablers, and business models. Focus on maximising value creation for your organisation and your customers. Develop a solid understanding of telecoms technology and deployment options and how this impacts the business. Break those silo barriers. Better lead, support, and enhance the performance of your people. Take a more active role in evolving company culture, innovation and processes. Assess ideas and opportunities more rigorously and take a more dynamic leadership role. "The best classes I’ve attended focusing on Telco industry, very insightful and spot-on" CSC“Trainers were excellent. Really like how lively the classroom was, the class participation and energy is vibrant and positive.” CWC"Excellent training with great knowledge for the telecom industry" MS

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Our Mobile Intelligent Networks CAMEL Training Course (Course Code: MB90) is designed to provide an in-depth understanding of Intelligent Network (IN) concepts, specifically focusing on IN Capability Set 1 (IN-CS1) and its interworking with CAMEL and mobile networks. This course covers a range of topics including Basic Call State Models (BCSM), Detection Points (DP) types and arming, CAMEL Phases 1, 2, and 3 features, operation and procedures, as well as CAMEL interaction with both circuit-switched (CS) and packet-switched (PS) mobile networks. Ideal for individuals looking to implement value-added services within mobile networks using CAMEL technology, this course requires participants to have a good understanding of technical language and concepts, as well as a solid knowledge of GSM operation. Familiarity with SS7 is also beneficial for a comprehensive learning experience.  Expand your expertise in Intelligent Network concepts and CAMEL technology with our comprehensive training course. Gain insights into CAMEL Information Flows, charging functions, pre-paid solutions, real-time charging, and analysis of CAMEL signalling. Whether you are a telecom professional looking to advance your career or a company seeking to implement innovative services in mobile networks, this course will equip you with the necessary skills and knowledge to succeed in the dynamic world of mobile intelligent networks. Who would benefit Those needing to know how value-added services can be implemented within mobile networks using CAMEL technology. Prerequisites An ability to understand technical language and concepts, and a good knowledge of GSM operation. Knowledge of SS7 is also beneficial. Topic Areas Include Intelligent Network Concepts Intelligent Network – Capability Set 1 Basic Call State Models (BCSM) Detection Points (DP) types and arming CAMEL Phases 1, 2 and 3 features, operation and procedures BCSMs, DPs and CAMEL Subscription Information CAMEL Information Flows CAMEL Interaction with CS and PS mobile networks CAMEL Interaction with CS and PS mobile networks Charging functions Pre-paid solutions and real-time charging Analysis of CAMEL signalling

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This 2-day MPLS VPNs and Traffic Engineering training course offered by Wray Castle provides a practical and in-depth look at Multi Protocol Label Switching (MPLS) technology. From understanding Label Switched Paths to configuring Virtual Private Network (VPN) connections and exploring MPLS Traffic Engineering, this course covers all the essential aspects of MPLS implementation in networks.  Engineers who work with MPLS VPNs or Traffic Engineering services will greatly benefit from this course, gaining a comprehensive understanding of how MPLS is configured and operated in real-world networks. Participants are required to have a good grounding in MPLS and VPN principles, which can be obtained by attending Wray Castle's course on 'Multi Protocol Label Switching'. Topics covered in this course include VPN (Virtual Private Networks), MPLS VPN operation, MP-BGP configuration, building different VPN types using route targets, MPLS traffic engineering, MPLS-TE trunk attributes, and fast restoration of an LSP using RSVP-TE. By the end of the training, participants will have the knowledge and skills to effectively configure and manage MPLS VPNs and Traffic Engineering in their networks. Who would benefit Engineers who would benefit from a practical understanding of how MPLS is configured in networks. Especially those that have to work with MPLS VPNs or Traffic Engineering services. Prerequisites A good grounding in MPLS and VPN principles as obtained by attending our Wray Castle course ‘Multi Protocol Label Switching – IP1307’. Topic Areas Include VPN (Virtual Private Networks) MPLS-based IP-VPN motivation MPLS VPN operation Configuration of VPN sites MP-BGP configuration MP-BGP updates Building different VPN types using route targets Route reflector MPLS traffic engineering MPLS-TE trunk attributes MPLS-TE basic operations Fast restoration of an LSP using RSVP-TE

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This course is for network engineers who require a practical understanding of Network Functions Virtualisation (NFV).  The course reviews the current NFV situation, introduces the leading bodies defining the standards and discusses the likely fields of application by examining use cases and existing Proof of Concepts (POCs). It discusses NFV from ETSI’s perspective, particularly in light of mobile operators’ intent to virtualise their IMS networks, as well as looking at how NFV relates to other techniques such as Cloud Computing and Software Defined Networking (SDN).  Network Functions Virtualisation (NFV) is a crucial technology for network engineers looking to stay ahead in the rapidly evolving telecommunications industry. Our 2-day NFV Engineering Training Course is designed to provide a practical understanding of NFV, covering everything from the current NFV landscape to the standards set by leading bodies. Through a series of live online sessions, participants will explore real-world use cases, Proof of Concepts (POCs), and the relationship between NFV, Cloud Computing, and Software Defined Networking (SDN). This course is ideal for network, software, and IT engineers, as well as managers and consultants who need to grasp the deployment considerations associated with NFV. Participants should have a basic understanding of IP networking and routing, with some familiarity with modern telecommunications networks. Topics covered include NFV Functional Architecture, NFV Infrastructure (NFVI), NFV Management and Orchestration (MANO), SDN and NFV integration, and ETSI Proof of Concept Projects. Don't miss this opportunity to enhance your skills and stay competitive in the dynamic world of NFV engineering. Who would benefit This course is suitable for those who need an understanding of NFV and the deployment considerations associated with NFV; including network, software and IT engineers, as well as managers and consultants. Prerequisites Delegates should have experience or an understanding of the principles or IP networking and routing and preferably some understanding of modern telecommunication’s networks. Topic Areas Include Drivers for Change NFV Functional Architecture NFV Infrastructure (NFVI) NFV Management and Orchestration (MANO) Software Defined Networks (SDN) and NFV NFV ETSI Proof of Concept Projects

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Course Code: TY2702 Course Summary This 3-day course reviews traditional approaches to transport services such as SDH and WDM and also discusses in detail alternative approaches including Carrier Ethernet and Pseudo Wire services that may be deployed in backhaul and core network applications. Who would benefit Transmission and network engineers who require an insight into modern digital transmission techniques used within fixed and mobile telecommunications networks. Prerequisites A good knowledge of fixed or mobile network transmission and switching architecture, services and applications and some knowledge of packet-switched networks and IP routing protocols. Topic Areas Include Introduction to transport networks Layer 2 virtual circuits – MPLS MPLS based VPNs MEF terminology for Carrier Ethernet Services Provider Bridge networks and Ethernet label-switching PBB service multiplexing Ethernet OAM – Connection Fault and Performance Management SDH Transport Networks SDH Multiplexing Structure and Protection Mechanisms Next Generation SDH review Wave Division Multiplexing (WDM) The Optical Transport Network, principles, multiplexing structures and operation MPLS in optical Networks, GMPLS and ASON Pseudo Wire (PW) principles, encapsulation and the control word Pseudo Wire types, IETF MPLS and TDM based PWs MPLS VLAN-to-VLAN and VPLS service examples

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Course Code: TY1202 Course Summary This course is intended for experienced telecoms engineers that wish to understand the workings of the protocols that are commonly used within Next Generation Networks (NGNs). The course takes a detailed look at real time signalling and transport protocols; it also looks at the protocols used to support legacy devices in the access and core network signalling such as POTS, ISDN and SS7. The course also looks in detail at the protocols supporting the new gateway devices. The course is backed up by an extensive set of exercises and the use of Wireshark. Who would benefit Those requiring a comprehensive understanding of the protocols used in an NGN for the support of voice services. Prerequisites A good understanding of legacy telecommunications networks, plus an understanding of IP networks and signal flows used in support of voice-related services. Topic Areas Include IP convergence Telecoms convergence and NGNs Telecoms (IP) scenarios Real time protocols SIP, RTP and RTCP H.323 call scenario The 3GPP IP Multimedia Subsystem The IMS registration process The IMS call signalling Softswitching architecture and protocols SIGTRAN in the access in support of POTS and ISDN SIGTRAN in the core in support of SS7 H.248 Megaco SIP-I Includes practical signalling exercises.

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