Final Exam: 5G Practices - analyze government involvement in 5G deployments and associated complexities
- compare and contrast the non-standalone and the standalone modes of 5G deployment
- compare and contrast the OSI model with the TCP/IP protocol stack
- compare the 4G protocol stack with that of 5G and determine how the former enables the latter
- compare the operation of the 5G protocol stack with its 4G counterpart
- define 5G small cell technology and compare it with its legacy counterparts
- describe the 5G core network architecture and its components
- describe the characteristics, technical implications, advantages, and disadvantages of a 5G network deployed in standalone mode and how this pertains to the 5G core
- describe the network vulnerabilities that are unique to 5G networks
- describe the operation of the 5G protocol stack at the physical layers
- describe the operation of the 5G protocol stack within the four sublayers of its data link layer
- describe various features that 5G small cell networking employs, including MIMO, beamforming, and self-healing capabilities
- describe various strategies to deal with and overcome the most common obstacles and difficulties associated with government officials and agencies
- detail the various ways in which government officials and related bodies are involved with 5G deployments
- discuss the reasoning behind the development of small cells in 5G and the advantages they deliver
- enumerate the possible obstacles that may present themselves through the adherence to required legal limits and thresholds when deploying 5G
- examine how the 5G protocol stack relates to the OSI model and how it extends its mechanisms of operation
- examine the advantages associated with obtaining various government departments and entities as customers of 5G services
- examine the features of protocol stacks that define the mechanisms and operation of wireless
- examine the user plane stacks associated with communication over the Xn and N4 interfaces
- explore the advantages delivered by virtualization and their implication for the 5G core network
- identify the most common motivations behind attacks on telecom networks, including acquiring information and disrupting services
- identify the role of the Internet Protocol (IP) within a 5G network in both the short and long term
- investigate the architecture of the 5G core network, its components, and its operation
- list the various applications that can benefit from or absolutely require small cell networks
- outline AT&T's 5G strategy and assess its positioning within the current market and industry environment
- outline China Mobile's 5G strategy and assess its positioning within the current market and industry environment
- outline how the use of non-standalone installations can introduce new vulnerabilities that must be dealt with
- outline Reliance Jio's 5G strategy and assess its positioning within the current market and industry environment
- outline the history of security in telecommunications as well as the importance of privacy, especially in todayâs highly connected network
- outline the purpose of a protocol stack and identify how it aids in understanding, designing, and operating communication networks
- outline T-Mobile's 5G strategy and assess its positioning within the current market and industry environment
- outline various real-world use cases for 5G small cell networking
- outline Verizon's 5G strategy and assess its positioning within the current market and industry environment
- recall the most common motivations behind attacks on telecom networks, including acquiring information and disrupting services
- recognize the common goals and services that mobile communication providers around the world share
- review the architecture of the 5G core network, its components, and its operation
- review the history of cellular networking from its inception to 4G networks
- review the OSI model, including its origins, history, and purpose
- synopsize the current state of 5G deployment worldwide, based on the analysis of the examined mobile network operators
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