“5G exists because of the need for connectivity in the future”
Telecommunications providers and technology companies around the world have been collaborating to research and develop new technology solutions to meet the growing demand for mobile data from consumers and industrial users.
It is expected that 5G networks will provide faster speeds, greater capacity, and the potential to support new features and services.
5G mobile communication network is expected to disrupt almost every work department and ecosystem in the world, because the deployment of these technologies enables more robots and automation, thereby increasing the global productivity of the deployment of advanced network services.
Although the definition of 5G technology has not yet been standardized, the lack of a formal definition has not deterred the entire telecommunications industry from interest, investment or announcement deployment.
It is expected that 5G will generate huge economic benefits. Market analysts estimate that in the United States, 5G can create up to 3 million new jobs and add 500 billion US dollars to the United States’ gross domestic product (GDP).
Analysts estimate that on a global scale, by 2035, 5G technology can generate 12.3 trillion US dollars in sales activities in multiple industries and provide 22 million jobs.
5G networks provide increased bandwidth, constant connectivity and low-latency services, which can enhance and expand the use of mobile technology by consumers and businesses.
Consumers will be able to download full-length HD movies on their mobile devices in a matter of seconds. Stream video without interruption; and participate in online games anywhere. It is expected that 5G technology will create new sources of revenue for technology companies and telecom providers.
"With endless applications and unlimited possibilities, 5G promises extraordinary"
5G Views:
The hyper-connected generation:
- Higher coverage and availability
- Higher network density in terms of cells and devices
- Greater connectivity for M2M services and IoT
- New D2D connections
- New radio technology to enable low power, low throughput field devices
The programmable and flexible nature of 5G networks represents a fundamental mobile network evolution in terms of capacity, performance, and spectrum access for radio and non-radio network segments, including backhaul functions.
Standalone 5G comprises a replacement end-to-end architecture that uses mmWaves and sub-GHz frequencies. The SA 5G will use enhanced mobile broadband (eMBB), Ultra-Reliable and Low Latency Communications (URLLC), and large machine-type communications (mMTC) to implement multi-gigabit data rates with improved efficiency and lower costs.
Also 5G SA enables more advanced network slicing capabilities, helping operators rapidly transition to both 5G New Radio (NR) and 5G because the core network. Network slicing, URLLC and mMTC bring ultra-low latency along side a good range of next-gen use cases like remote of critical infrastructure, self-driving vehicles, advanced healthcare and more.
“The impact of 5G technology is monumental”
5G aims to supply a good range of latest services, applications, devices, and enhanced mobile experiences, like enhanced mobile broadband (eMBB), ultra-reliable and low-latency communication (uRLLC), and large-scale machine type communication (mMTC).
Tonex offer 5G Training 2021, Learn the fundamental concept of 5G wireless system including, channels, RF circuits, antennas, propagation, 3GPP New Radio (NR), Next Generation (NexGen), issues surrounding emerging 5G wireless LAN and cellular/backhaul applications.
5G Training course covers the fundamental 5G wireless communications including,
- Channels
- RF circuits
- Antennas
- Propagation
- 3GPP New Radio (NR)
- Next Generation (NexGen)
- Issues surrounding emerging 5G wireless LAN and cellular/backhaul applications
Learn about:
- Critical communication and public safety
- Enhancements for direct D2D communications
- Group communications
- Machine-type Communications
- 5G NR and Radio optimizations to allow for lower cost
- System level awareness of M2M devices Device power consumption optimizations
- Mechanisms for optimized handling of small amounts of data
- System capacity and robustness
- Access Network Discovery and Selection Function (ANDSF)
- Enhancing the level of automation
- Decoupling software functions from the resources
5G Training 2021: Learning Objectives
- Describe what 5G is
- List the 5G features and their benefits
- Describe key 5G technology drivers and enablers of 5G
- List 5G technology candidates in RAN/radio, transport, core networks, interoperability and services
- List 5G Use Cases
- List User-Driven 5G Requirements
- Describe ITU 5G standards (IMT2020) along with NGMN alliance and 3GPP
- Describe 3GPP LTE/LTE-A evolution towards 5G
- Walk through current and future deployment of 5G scenarios
- Co-Existence of LTE End-to-End Ecosystem with 5G
- List similarities and differences between 5G Radio Access and LTE
- Learn how 5G wireless networks could support up to 1,000-fold gains in capacity
- List requirements to connect 100 billion human and devices with a 10 Gb/s speed with zero-distance connectivity
- Describe new 5G Radio Access Technology Interworking with LTE
- Illustrate 5G wireless communication networks cellular architecture and key technologies
- Illustrate 5G network architecture and components
- Describe the operation scenarios of 5G
- Explain the key RF, PHY, MAC and air interface changes required to support 5G
- Describe features supporting 5G wireless deployments
- Discuss the rationale for 5G wireless and key deployment typologies
- Outline changes required to implement 5G
- Learn about features of Massive MIMO
5G Training 2021: Course Outline
- What is 5G Wireless Communication
- 5G Wireless Requirements, Applications, and Services
- Overview of 5G Vision
- 5G Wireless Use Cases and Applications
- Key Capabilities in IMT-2020
- Overview of Current and Past 5G Wireless Standardization and Projects
- 5G Services and Network Architecture
- 5G Technology Enablers
- The 5G Operational Scenarios
- 3GPP Standardization and Enabling Technologies for 5G
- 3GPP 5G System Survey
- 3GPP 5G Identifiers
- 3GPP 5G Core Architecture Overview
- 5G Challenges and Requirements
- 5G Wireless Air Interface Options
- 3GPP Evolution to 5G: LTE-Advanced Pro
For More Information:
Visit Course Link
5G Training 2021
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