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1
참고 답변
SA 5G deployments have their own independent core network, which is fully optimized for 5G services. They provide enhanced performance, ultra-low latency, and support for advanced 5G features like network slicing and edge computing.
2
참고 답변
The air interface in 5G uses protocols such as the Radio Resource Control (RRC) protocol, Packet Data Convergence Protocol (PDCP), Radio Link Control (RLC), and Medium Access Control (MAC) protocol.
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3
참고 답변
GBR (Guaranteed Bit Rate) bearers provide a minimum guaranteed data rate, while non-GBR bearers do not.
4
참고 답변
5G uses small cell networks to improve coverage and capacity in areas where there is high demand for wireless connectivity, such as urban centers.
5
참고 답변
SDAP maps QoS flows to data radio bearers in 5G, ensuring quality of service requirements are met.
6
참고 답변
Downlink HARQ uses asynchronous adaptive HARQ with ACK/NACK feedback on PUCCH.
7
참고 답변
WAN stands for Wide Area Network. It is an interconnection of computers and devices that are geographically dispersed. It connects networks located in different regions and countries.
8
참고 답변
Network Topology refers to the layout of a computer network. It shows how devices and cables are spread out, as well as how they connect.
9
참고 답변
Assessing your candidate's understanding of security risks and their mitigation strategies signifies their readiness to handle security breaches effectively.
10
참고 답변
Frequency Range 1 (FR1) that includes sub-6GHz frequency bands. Frequency Range 2 (FR2) that includes frequency bands from 24.25 GHz to 52.6 Ghz.
11
참고 답변
The DRX retransmission timer keeps the UE awake to receive HARQ retransmissions.
12
참고 답변
The UE calculates its paging group from its IMSI and network parameters.
13
참고 답변
An UL grant is a DCI message that allocates uplink resources to a UE for PUSCH transmission.
14
참고 답변
DRX short cycles provide faster wake-up after inactivity before long cycles.
15
참고 답변
The transition from NSA to SA 5G involves gradually upgrading the core network to a standalone architecture while maintaining compatibility with existing 5G radio access networks.
16
참고 답변
Higher frequency bands offer wider bandwidth and allow for the transmission of larger amounts of data, enabling higher data rates and increased network capacity in the air interface.
17
참고 답변
URLLC stands for Ultra Reliable Low Latency Communication which is one of the effective technology introduced by 3GPP in Release-15. URLLC have new techniques that's supporting new requirements from vertical industries such as autonomous driving for the automotive industry, remote surgery for eHealth and cloud robotics for Industry 4.0. All applications demand Improved guarantee latency to be 1ms or less Improved reliability Higher availability Higher security efficient control and data resource sharing
18
참고 답변
Massive MIMO (Multiple-Input Multiple-Output) is a technology that uses a large number of antennas at the base station to increase capacity and improve spectral efficiency in the air interface.
19
참고 답변
RIP, or Routing Information Protocol, is used by routers to send data from one network to another. It effectively manages routing data by broadcasting its routing table to all other routers within the network.
20
참고 답변
MME paging is the process where the MME sends paging requests to eNodeBs.
21
참고 답변
I use a variety of tools for network monitoring and management, including SolarWinds, Nagios, PRTG Network Monitor, and Wireshark. These tools provide real-time monitoring, alerting, and detailed analysis of network performance and traffic. They help identify and resolve issues quickly, ensure network uptime, and optimize network performance.
22
참고 답변
Encryption ensures confidentiality of user and control data.
23
참고 답변
PHR range is from -23 dB to +40 dB, reported in 1 dB steps.
24
참고 답변
The network layer is responsible for routing data between different devices on different network segments. It uses IP addresses to determine the best path for data to travel from its source to its destination.
25
참고 답변
A candidate's experience in designing or developing 5G-related software would indicate their software development skills relevant to the 5G domain.
26
참고 답변
I have implemented virtual networks and SDN in several projects to enhance network flexibility and scalability. One notable project involved deploying an SDN solution that reduced network provisioning time by 50% and improved overall network performance.
27
참고 답변
The drx-InactivityTimer is configured via RRC and starts after a data transmission.
28
참고 답변
OFDMA enables efficient multi-user access by allocating subcarriers to different UEs in the downlink.
29
참고 답변
The DRX on-duration is the initial period in a DRX cycle where the UE monitors PDCCH.
30
참고 답변
Power control sets initial preamble power and ramps up on failure.
31
참고 답변
This question evaluates the candidate's knowledge of wireless LAN security protocols, encryption, authentication, and best practices.
32
참고 답변
The on-duration is controlled by the onDurationTimer, configured via RRC.
33
참고 답변
LTE reduces latency through short TTI, fast HARQ, and optimized scheduling.
34
참고 답변
Adaptive modulation changes modulation order based on channel conditions for each HARQ transmission.
35
참고 답변
The air interface in 5G includes features like narrowband IoT (NB-IoT) and enhanced machine-type communication (eMTC) to enable massive connectivity for IoT devices with optimized power consumption and coverage.
36
참고 답변
A router is a physical device that is used for receiving, storing, analyzing and forwarding data packets to other nodes inside or outside the network. Routers can connect to devices such as a modem, optic fiber and a cable to connect and share information between devices. Routers contain firmware and software. Firewalls are installed in routers for securing the network. Moreover, routers use forwarding tables and headers for determining the best path for transferring the data packets.
37
참고 답변
UE measurement reports trigger handover decisions by providing signal strength and quality of neighboring cells.
38
참고 답변
I manage DNS issues by verifying DNS server configurations, checking DNS records for accuracy, and using diagnostic tools like nslookup and dig to test DNS resolution. I also monitor DNS server performance and review logs for errors or anomalies. Troubleshooting involves identifying misconfigurations, ensuring proper network connectivity, and resolving any issues with DNS records or server settings.
39
참고 답변
RA-RNTI identifies the random access response for a specific preamble.
40
참고 답변
The PDN Gateway (P-GW) connects the LTE network to external packet data networks, managing IP address allocation and QoS enforcement.
41
참고 답변
Contention-free access uses dedicated preambles assigned by the network, avoiding collisions.
42
참고 답변
Network automation plays a significant role in 5G by enabling efficient management, configuration, and orchestration of network resources, reducing manual intervention, and ensuring the dynamic allocation of network services.
43
참고 답변
Experienced candidates will explain that wireless network channels are specific frequency ranges within the broader Wi-Fi bands (2.4 GHz and 5 GHz) used to transmit data. Their purpose is to reduce interference and overlap between multiple networks operating in the same area.
44
참고 답변
As IoT's role in 5G networks grows, having experience in this domain could be benefit for being a part of any 5G project or role.
45
참고 답변
The UE remains in idle mode and waits for the next paging occasion.
46
참고 답변
The OSI model is a conceptual framework for understanding network interactions in seven layers. The layers are: - Physical - Data Link - Network - Transport - Session - Presentation - Application Each layer has specific functions and protocols.
47
참고 답변
EN-DC can support data speeds of up to 2 Gbps, depending on network conditions and device capabilities.
48
참고 답변
Here, structure wins. Start with: Default bearer Dedicated bearer Then discuss: QCI / 5QI Throughput validation Latency expectations This is where practical exposure shines.
49
참고 답변
Main occasions: initial access, handover, RRC re-establishment, and scheduling request.
50
참고 답변
SCG failure occurs in dual connectivity when secondary cell group fails, analyzed via RRC reestablishment or failure reports. Beamforming failure involves beam failure detection and recovery via BFR procedure. RLF (Radio Link Failure) is detected via T310 timer expiry, logged for RRC reestablishment analysis.
51
참고 답변
The preamble format is chosen based on cell size and TDD configuration, e.g., format 4 for special subframes.
52
참고 답변
ARFCN calculation plays a significant role in network planning and optimization by ensuring efficient frequency allocation, interference management, and proper utilization of available spectrum resources. Accurate ARFCN calculation contributes to the overall performance and capacity of the 5G network.
53
참고 답변
PUCCH is transmitted on reserved resource blocks with formats for different control info.
54
참고 답변
When designing multi-cloud networking architectures, I consider the following: - Interoperability between different cloud providers - Data transfer costs between clouds and on-premises systems - Consistent security policies across all environments - Network performance and latency between clouds - Redundancy and failover mechanisms - Compliance with data sovereignty regulations - Unified monitoring and management tools for all cloud environments
55
참고 답변
KASME is derived from CK/IK and used to generate NAS and AS keys.
56
참고 답변
The PRACH Configuration Index defines the time-frequency resources for PRACH.
57
참고 답변
OFDMA divides the spectrum into orthogonal subcarriers, allocated to multiple users for simultaneous transmission.
58
참고 답변
Comparing 5G NR with its predecessor, LTE (4G), provides insights into the advancements made in the new generation. 5G NR surpasses LTE in terms of speed, latency, and connectivity. With higher data rates, lower latency, and support for a huge number of connected devices, 5G NR redefines the possibilities of wireless communication, unlocking new opportunities across industries.
59
참고 답변
The physical layer performs the transformation from data bits to electrical signals and vice versa. This is where network devices and cable types are considered and configured.
60
참고 답변
Dual connectivity allows a UE to connect to two base stations simultaneously, improving throughput and reliability.
61
참고 답변
I handle incidents and disaster recovery by having a well-documented and tested incident response plan and disaster recovery plan. This includes identifying critical network components, establishing backup and failover mechanisms, and defining roles and responsibilities. Regular drills and updates to the plans ensure readiness and minimize downtime during incidents.
62
참고 답변
The 2.4 GHz frequency offers a broader range and better penetration through obstacles but is more susceptible to interference. The 5 GHz frequency provides higher data rates and reduced interference, making it ideal for high-bandwidth activities, but has a shorter range.
63
참고 답변
The purpose of this question is to evaluate how candidates manage complex projects that are key for business continuity and growth. It allows you to grasp their strategic planning skills as well as their technical expertise in integrating disparate technologies and infrastructures while maintaining or improving network performance and security. Answer sample: Approaching a network merger after acquiring another company requires a structured and strategic methodology to ensure a smooth transition and integration of network infrastructures. My first step would be to conduct a thorough audit of both networks to understand their architectures, technologies, and configurations. This involves identifying hardware, software, security protocols, and any custom applications or services running on both networks. Understanding the business objectives behind the merger is crucial. It informs the integration strategy to ensure that the consolidated network supports these goals without compromising on performance, security, or scalability. Based on the audit, I would identify areas of compatibility and concern, such as overlapping IP schemes, differing security policies, or incompatible hardware, which need to be addressed. The next phase involves detailed planning, where I draft a roadmap for integration that includes timelines, resource allocations, and contingency plans. This plan is developed in collaboration with stakeholders from both companies to align technical actions with business priorities and to ensure buy-in from all parties involved. Communication is key during this process. I would establish clear channels and protocols for communication among the technical teams and between the IT department and the wider organization. Keeping everyone informed helps in managing expectations and reduces the impact of the changes on day-to-day operations. Implementation would be carried out in phases, starting with non-critical systems to minimize disruptions. This phased approach allows for testing and adjustments before full-scale integration. Throughout this process, I prioritize security to ensure that the merged network does not introduce vulnerabilities. Finally, post-merger, I focus on optimization and consolidation, removing redundancies, and ensuring that the network operates efficiently at scale. Continuous monitoring and feedback mechanisms are put in place to quickly identify and address any issues that arise.
64
참고 답변
This question assesses the candidate's problem-solving skills and ability to handle unexpected challenges in the field.
65
참고 답변
A downlink assignment is a DCI message that allocates PDSCH resources to a UE.
66
참고 답변
SIB1 includes cell access info, PLMN identity, and scheduling of other SIBs.
67
참고 답변
This is a role-specific question. Encryption on a network is used to protect data confidentiality and integrity during transmission. It ensures that sensitive information (e.g., passwords, financial data, personal communications) cannot be read or modified by unauthorized parties. Common uses include securing web traffic via HTTPS (SSL/TLS), encrypting emails (e.g., PGP, S/MIME), protecting remote access connections through VPNs (IPsec, OpenVPN), and securing wireless networks (WPA2/WPA3). Encryption also helps comply with regulatory requirements such as GDPR, HIPAA, and PCI DSS.
68
참고 답변
RRC connection reconfiguration modifies radio resources, mobility, and measurement settings.
69
참고 답변
The RA preamble index identifies the specific preamble used by the UE.
70
참고 답변
Routers have a built-in console that allows you to configure various settings, such as security and data logging. You can assign restrictions to computers, like what resources they are allowed access to or when they can browse the Internet. You can also impose restrictions on what websites are not visible across the entire network.
71
참고 답변
MIMO uses multiple antennas to increase data rates up to a maximum of 8x8 MIMO.
72
참고 답변
PDCCH collisions are avoided via CCE allocation and UE-specific search spaces.
73
참고 답변
RRC is the backbone of radio control. Interviewers want to know: When does UE move from Idle to Connected? What triggers Inactive in 5G? Talk about: RRC Request Security Mode Command Reconfiguration Explain logs. Explain symptoms. Explain recovery.
74
참고 답변
A default gateway routes traffic from a local network to external networks like the internet.
75
참고 답변
It ensures only one UE succeeds by including its identity in message 4.
76
참고 답변
I built a split-scope DHCP design across two core switches with 80/20 distribution. When a rogue Wi-Fi extender started serving IPs, our DHCP snooping instantly blocked it, protecting users. Being able to foresee and neutralize such threats is exactly what network engineer interview questions hope to surface.
77
참고 답변
The subframe indicator identifies the subframe for scheduling and HARQ timing.
78
참고 답변
The Control Plane handles signaling messages for connection management, mobility, and security, using RRC and NAS protocols.
79
참고 답변
In practice, I treat the OSI model like a checklist. When a remote user couldn't reach an ERP server, I verified Layer 1 by checking interface status lights, Layer 2 via MAC address tables, and Layer 3 with traceroute. The trace stopped at the firewall, so we updated Layer 4 rules to allow the application port. By moving up the stack systematically, we restored service in minutes. That disciplined approach is why the OSI question sits at the heart of so many network engineer interview questions.
80
참고 답변
A colleague wanted to implement a solution using a vendor we'd never worked with before, while I recommended sticking with Cisco, which we already had expertise in. He argued the new vendor was cheaper; I was concerned about compatibility and support. Rather than just disagreeing, I suggested we build proof-of-concept labs with both solutions. We tested them in a lab environment for two weeks, documented the results, and presented findings to management. The new vendor's solution actually worked well but had longer support response times. We ended up using Cisco for core equipment and the new vendor for edge devices, which saved money while maintaining acceptable support. That experience taught me to test rather than assume.
81
참고 답변
Beamforming is a signal processing technique that focuses radio waves in a specific direction toward the user, rather than broadcasting in all directions. In 5G, it improves signal strength, reduces interference, and increases network capacity, especially in high-frequency mmWave deployments.
82
참고 답변
The Authentication Request challenges the UE to prove its identity.
83
참고 답변
In a previous role, we experienced a network outage that affected multiple departments. I worked with the IT, server, and application teams to identify the root cause, which was a misconfigured switch. Through collaborative troubleshooting, we resolved the issue, restored network connectivity, and implemented measures to prevent future occurrences. Clear communication and teamwork were essential to resolving the issue quickly and effectively.
84
참고 답변
RRC connection release transitions the UE to idle mode, freeing radio resources.
85
참고 답변
Events include A1, A2, A3, A4, A5, B1, and B2 based on signal measurements.
86
참고 답변
UL-SCH (Uplink Shared Channel) is the transport channel for uplink user data.
87
참고 답변
RLC UM (Unacknowledged Mode) provides segmentation and reassembly without retransmissions, suitable for real-time services.
88
참고 답변
Keys are derived from K via AKA, with KASME, KNAS, and KeNB for different layers.
89
참고 답변
Control Resource Sets (CORESET) play a crucial role in the control signalling within 5G networks. CORESET is a set of resources dedicated to control signalling, ensuring efficient and reliable communication between the network and user devices. It allows for the prioritisation of critical control information, contributing to the overall efficiency of the 5G network.
90
참고 답변
The UE-specific DRX cycle allows customized power saving based on UE activity.
91
참고 답변
VLANs (Virtual Local Area Networks) work by segmenting a physical network into multiple logical networks. Each VLAN has its own broadcast domain, which helps reduce network congestion and improve security by isolating different types of traffic. VLANs are used to separate different departments or types of traffic within an organization, enhance network performance, and provide better control over network resources.
92
참고 답변
Paging reduces signaling by waking UEs only at specific occasions instead of continuous monitoring.
93
참고 답변
Network slicing creates virtualized end-to-end networks for specific services. S-NSSI (Single Network Slice Selection Assistance Information) identifies a slice, consisting of SST (Slice/Service Type) and optional SD (Slice Differentiator). SST defines the slice type (e.g., eMBB, URLLC, mMTC), and SD provides additional differentiation.
94
참고 답변
LTE supports QPSK, 16QAM, and 64QAM modulation schemes for both uplink and downlink.
95
참고 답변
In a hospital rollout we used PoE+ switches to power IP cameras and phones. I enabled rapid PVST to minimize convergence, configured BPDU guard on access ports, and reserved separate VLANs for medical devices. That mix of performance and patient-data security is precisely the substance interviewers target with switch-related network engineer interview questions.
96
참고 답변
In five years, I see myself as a senior network architect. I want to move beyond day-to-day administration into designing solutions that support business strategy. To get there, I am building skills in software-defined networking and automation. I am learning Python and Ansible because I believe that is where the field is heading. I am also working toward my CCNP, which I expect to complete within the next year. What attracts me to this role is the growth potential. From what I have learned, you promote from within and support professional development. I want to be somewhere I can contribute while advancing my career.
97
참고 답변
Downlink HARQ uses asynchronous adaptive processes with ACK/NACK feedback.
98
참고 답변
The eNodeB initiates paging upon receiving a paging message from the MME.
99
참고 답변
The UE measures RSSI to detect potential cells for synchronization.
100
참고 답변
I maintain detailed documentation of network topology, device configurations, and change logs. I use version control systems for configuration files and ensure all changes are documented with reasons, dates, and responsible parties. This helps in troubleshooting, auditing, and maintaining consistency across the network.
101
참고 답변
RRC connection request is triggered by paging response, data, or signaling needs.
102
참고 답변
Paging optimization reduces signaling by grouping UEs and using efficient paging cycles.
103
참고 답변
CBRA (Contention-Based Random Access) uses shared preambles, with risk of collisions. CFRA (Contention-Free Random Access) uses dedicated preambles assigned by gNB, avoiding collisions, typically used for handover or beam recovery.
104
참고 답변
Contention-free preambles are dedicated to a specific UE, avoiding collisions.
105
참고 답변
DRX (Discontinuous Reception) allows the UE to sleep and wake periodically to save power.
106
참고 답변
A strong answer flows from top to bottom: NAS: Mobility and session management RRC: Connection control PDCP: Ciphering and integrity RLC: Segmentation MAC: Scheduling PHY: Transmission In 5G, you highlight additions like: SDAP Service-based interfaces Don't rush. Explain relationships, not definitions. That's how you show maturity.
107
참고 답변
The OSI model has seven layers, and I think of it as a troubleshooting framework. When we have a connectivity issue, I start at the bottom. If users can't reach a resource, I first confirm that physical cables are plugged in and the interface is up—that's Layer 1. Then I check Layer 2 for VLAN assignments and switch configurations. If the device is on the right VLAN but still can't communicate, I move to Layer 3 and check IP addressing, subnet masks, and routing. I once had a situation where users in one department couldn't reach a server in another building. By systematically working through the layers, I found the issue was at Layer 3—the router wasn't advertising the correct route. Knowing the model helps me avoid wasting time on irrelevant checks.
108
참고 답변
Event A1 triggers when serving cell becomes better than a threshold, used to stop measurements.
109
참고 답변
WAN is a Wide Area Network. It connects computers across different places or countries.
110
참고 답변
Periodic PHR reports provide regular power headroom updates to the eNodeB.
111
참고 답변
RA-RNTI = 1 + subframe_index + 10 * frequency_index.
112
참고 답변
The top layer, the application layer, provides the interface between the user and the network. It includes protocols like HTTP and FTP, which allow users to access and share information over the network.
113
참고 답변
Monitoring is essential because you can't fix problems you don't know about. I've worked with Nagios for alerting on device availability and basic metrics, and SolarWinds for more comprehensive traffic analysis and performance trending. At my last role, I set up custom thresholds in Nagios—for example, alerting if link utilization exceeded 80% for more than 15 minutes. That gave us early warning before we had congestion issues. I've also used Wireshark for packet-level troubleshooting when I need to see exactly what traffic is on the wire. The key is not monitoring everything—that's noise. I focus on monitoring what matters: link availability, utilization, and whether critical services are responding. I also keep dashboards visible so the team can quickly see network health without having to log into multiple systems.
114
참고 답변
The UE measures neighbor cells and reselects based on signal strength and priority.
115
참고 답변
The different deployment models for 5G architecture include non-standalone (NSA) and standalone (SA) modes. NSA mode uses existing 4G LTE networks for certain functions, while SA mode is a completely independent 5G network.
116
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Contention-based RACH uses shared preambles with collision risk, while contention-free uses dedicated preambles.
117
참고 답변
Edge computing is a key feature of 5G architecture that enables data processing and storage to occur closer to the end user, reducing latency and improving overall network performance.
118
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Collisions are resolved via contention resolution and backoff mechanisms.
119
참고 답변
Retransmissions are scheduled via DCI with new data indicator and redundancy version.
120
참고 답변
Here's how to prepare for network engineer interview questions like this one: "I recognise that staying up-to-date with the latest network engineering trends, products, and technologies is essential to my career, especially given the rapid pace of the IT industry. To achieve this, I actively engage in various online professional groups where we exchange ideas and explore new concepts. I also stay informed by subscribing to multiple podcasts and attending an annual IT conference. Additionally, I try to enrol on the latest courses and certifications and complete them in my own time to keep my knowledge of network engineering up-to-date."
121
참고 답변
Direct Tunnel allows user data to bypass the S-GW, going directly from eNodeB to P-GW, reducing latency.
122
참고 답변
The air interface in 5G refers to the wireless communication link between the user equipment (UE) and the base station (gNB) through which data and control information are transmitted.
123
참고 답변
Here, clarity matters. NSA: LTE anchor EN-DC SA: Pure 5G core SBA validation Explain test complexity differences.
124
참고 답변
HARQ (Hybrid Automatic Repeat Request) combines error correction and retransmission to improve reliability. It is used in MAC layer for PDSCH and PUSCH.
125
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FDD uses separate frequency bands for UL and DL, while TDD uses the same band with time separation.
126
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RRC Connection Setup follows, including radio resource configuration.
127
참고 답변
To troubleshoot network connectivity issues, I follow a systematic approach. First, I verify the physical connections and ensure that all cables and devices are properly connected. Next, I check the device configurations, including IP addresses, subnet masks, and gateway settings. I use diagnostic tools such as ping and traceroute to identify where the connectivity breaks down. I also review network logs and monitoring data to identify any errors or anomalies. If necessary, I escalate the issue and collaborate with other network engineers to resolve it.
128
참고 답변
Adaptive MCS adjusts modulation and coding based on CQI for each transmission.
129
참고 답변
This is a role-specific question. Pros: Private IP addresses conserve public IP address space, enhance security by isolating internal networks from the internet, and allow for flexible internal network design without requiring public IP registration. They also enable network address translation (NAT) to share a single public IP among multiple devices. Cons: Private IP addresses are not routable on the public internet, so devices with private IPs require NAT or a proxy to access external resources. This can introduce complexity and potential performance bottlenecks. Additionally, private IP addresses can conflict if networks are merged without proper planning.
130
참고 답변
Split bearers divide data between master and secondary nodes, with PDCP splitting at the master node.
131
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5G supports network slicing in the air interface through the allocation of specific radio resources, such as bandwidth, modulation schemes, and coding schemes, to each network slice.
132
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The Paging DRX cycle defines how often the UE wakes up for paging in idle mode.
133
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eNodeB power is controlled via network planning and dynamic adjustments for interference management.
134
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A physical channel is a set of time-frequency resources used to transmit data or control information, such as PDSCH or PDCCH.
135
참고 답변
This question assesses the candidate's practical design experience, including site surveys, capacity planning, and successful deployment outcomes.
136
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5G NR SSS uses a BPSK Gold sequence of length 127, combined with PSS to form 1008 physical cell IDs. LTE SSS uses a binary m-sequence of length 62, combined with PSS for 504 cell IDs. 5G NR SSS is transmitted in SSB with beamforming.
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LTE standards are in matured state now with release 8 frozen. While LTE Advanced is still under works. Often the LTE standard is seen as 4G standard which is not true. 3.9G is more acceptable for LTE. So why it is not 4G? Answer is quite simple - LTE does not fulfill all requirements of ITU 4G definition. Brief History of LTE Advanced: The ITU has introduced the term IMT Advanced to identify mobile systems whose capabilities go beyond those of IMT 2000. The IMT Advanced systems shall provide best-in-class performance attributes such as peak and sustained data rates and corresponding spectral efficiencies, capacity, latency, overall network complexity and quality-of-service management. The new capabilities of these IMT-Advanced systems are envisaged to handle a wide range of supported data rates with target peak data rates of up to approximately 100 Mbit/s for high mobility and up to approximately 1 Gbit/s for low mobility.
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Longer DRX cycles allow more sleep time, reducing power consumption.
139
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LTE (Long Term Evolution) is initiated by 3GPP to improve the mobile phone standard to cope with future technology evolutions and needs.
140
참고 답변
RSRQ = N * RSRP / RSSI, where N is the number of resource blocks.
141
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In 5G NSA, the UE first attaches to LTE (eNB) via RRC connection, then adds 5G NR (gNB) via RRC reconfiguration. In 5G SA, the UE directly attaches to 5G NR (gNB) with a 5G core, involving messages like RRC Setup Request, RRC Setup, Registration Request, Authentication, Security Mode, and RRC Reconfiguration.
142
참고 답변
DL/UL throughput debugging involves checking MCS, number of RBs, BLER, HARQ retransmissions, RLC retransmissions, TCP window size, and channel conditions (RSRP, SINR). Tools like drive test logs and protocol analyzers help identify bottlenecks.
143
참고 답변
5G NR, or New Radio, is the global standard for air interface communication in 5G networks. It brings a host of improvements over its predecessors, including higher data rates, lower latency, and increased reliability. 5G NR represents the latest advancement in wireless communication Technology, designed to deliver unprecedented speed and connectivity. It utilises advanced features like beamforming and massive MIMO to optimise data transfer, making it a pivotal element in the 5G ecosystem.
144
참고 답변
GTP-C handles control signaling for tunnel management between core network nodes.
145
참고 답변
DCNR (Dual Connectivity with NR) refers to EN-DC (E-UTRA-NR Dual Connectivity) where LTE and NR are combined. MRDC (Multi-RAT Dual Connectivity) is a broader term for dual connectivity across different RATs, including EN-DC, NGEN-DC, and NR-NR DC.
146
참고 답변
PDCP header compression reduces the size of IP headers (e.g., ROHC) to improve spectral efficiency.
147
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NAS (Non-Access Stratum) protocol handles signaling between the UE and MME for mobility, session management, and security.
148
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Preamble sequences are generated by cyclically shifting a Zadoff-Chu root sequence.
149
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Rights refer to the authorized permission to perform specific actions on the network. Each user on the network can be granted individual rights, depending on what needs to be considered by that user.
150
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A subframe is 1 ms long, consisting of 2 slots.
151
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For 5G, deployment options include standalone (SA) and non-standalone (NSA). The differences come down to cost, complexity, and overall performance. 5G NSA uses a 4G LTE Control Plane to manage connectivity authorization. 5G SA uses a 5G CORE to manage connectivity and user athentication. Deployment scenarios are defined by functional splits (i.e. Split Option 3, Split Option 7 etc.) that defines the distribution of network functions and processing tasks between different network elements. It allows for a gradual transition from 4G to 5G while leveraging the existing infrastructure.
152
참고 답변
When troubleshooting a network issue, I start by systematically isolating the problem using tools like Wireshark and PRTG. I then analyze the data to identify the root cause and implement a solution, ensuring to document each step for future reference.
153
참고 답변
RSRP is the average power of cell-specific reference signals over the bandwidth.
154
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The UE continues scanning frequencies until a suitable cell is found.
155
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Paging subframes are specific subframes where paging messages are transmitted.
156
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Deployment models include non-standalone and standalone 5G architecture.
157
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Proxy servers primarily prevent external users from identifying the IP addresses of an internal network. Without knowledge of the correct IP address, the physical location of the network cannot be determined. This makes network locations more secure.
158
참고 답변
When selecting the appropriate cell bandwidth for a 5G deployment, factors such as available spectrum, network capacity requirements, interference levels, and compatibility with existing infrastructure need to be considered to ensure optimal network performance.
159
참고 답변
Priority handling ensures higher priority logical channels are served first in resource allocation.
160
참고 답변
I subscribe to a few industry newsletters like Packet Pushers and follow some network engineers on Twitter who post about emerging trends. I've also gotten certifications like my CCNA, and I'm working toward my CCNP, which forces me to learn new technologies systematically. I tinker in my home lab—I have a few old routers and switches I practice on, and I sometimes spin up virtual network environments using GNS3 or Cisco's VIRL to experiment with new configurations before implementing them at work. I also attend a local networking meetup once a month where engineers from different companies share what they're working on. That exposure to what other organizations are doing helps me think about what might be relevant for us. Right now, I'm particularly interested in network automation and SDN because I see it becoming more mainstream, so I've started learning Python and Ansible.
161
참고 답변
UE measurement reports provide signal quality data (e.g., RSRP, RSRQ) to the network for handover and cell reselection decisions.
162
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It is the node providing NR CP and UP protocol terminations towards their UE. The en-gNB is connected to the EPC via the S1 interfaces.
163
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The user plane consists of the radio interface, transport network, and core network. It handles the transmission of user data between the UE and the target destination.
164
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Longer T_SEQ improves detection range and Doppler tolerance.
165
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Edge computing brings data processing closer to the user or device, reducing latency and bandwidth usage. In 5G, it enables real-time analytics for applications like autonomous vehicles and augmented reality by processing data at the network edge rather than in centralized cloud servers.
166
참고 답변
Bearer management involves establishing, modifying, and releasing EPS bearers with specific QoS parameters.
167
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The MIB uses 8 bits for the System Frame Number (SFN).
168
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EARFCN stands for E-UTRA Absolute Radio Frequency Channel Number. It is used to identify the carrier frequency in LTE.
169
참고 답변
This question assesses the candidate's understanding of beamforming challenges, such as client compatibility, interference patterns, and optimal configuration.
170
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For capacity planning and scaling in cloud networks, I: - Regularly analyze current usage trends and forecast future growth - Utilize auto-scaling features provided by cloud platforms to adjust resources based on demand automatically - Implement load balancing to distribute traffic efficiently - Use cloud-native monitoring tools to track performance metrics and identify bottlenecks - Design the network architecture to be modular and easily expandable - Regularly review and optimize resource allocation to ensure cost-effectiveness
171
참고 답변
NSA 5G deployments leverage existing 4G infrastructure to provide initial 5G services. They rely on 4G core networks while utilizing 5G radio access networks for enhanced data rates and capacity.
172
참고 답변
DCI (Downlink Control Information) is used to convey scheduling decisions, resource allocations, and power control commands to UEs.
173
참고 답변
5G uses advanced interference management techniques, including beamforming, power control, and advanced algorithms, to mitigate interference between neighboring cells and improve overall network performance.
174
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Network visualization tools allow network engineers to monitor network and data performance, including components like routers and servers, by using visual depictions of networks and data flows. Understanding visualization tools can help you find issues, simplify network planning, and complete other tasks that can reduce downtime or potential costs, so employers may want to ensure you have a grasp of visualization techniques.
175
참고 답변
A paging frame is a radio frame where paging messages may be transmitted.
176
참고 답변
I approach security in layers. At the perimeter, I configure firewalls to allow only necessary traffic and regularly review rules. I also implement intrusion detection systems for suspicious patterns. Internally, I use VLANs and access control lists to limit lateral movement. I configure 802.1X for port-based authentication, use SSH instead of Telnet, and enforce strong passwords with multi-factor authentication where possible. Monitoring is equally important. Regular log reviews and anomaly detection help identify threats early. And I maintain a patching schedule to address known vulnerabilities before they become problems.
177
참고 답변
6 PRBs provide sufficient bandwidth for preamble detection.
178
참고 답변
CQI helps select the MCS for HARQ transmissions, balancing efficiency and reliability.
179
참고 답변
An Access Point (AP) is a networking device that provides wireless connectivity to devices like laptops, smartphones, and IoT devices. It connects Wi-Fi users to a wired LAN and allows seamless wireless communication within homes, offices, and enterprise networks.
180
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Sub 6 GHz (FR1) refers to frequency bands below 6 GHz, offering wider coverage and better penetration. mmWave (FR2) refers to frequencies above 24 GHz, providing very high bandwidth and data rates but with limited range and penetration.
181
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The X2 interface connects eNodeBs for inter-cell coordination, handover signaling, and load management.
182
참고 답변
Signaling Radio Bearers (SRBs) carry RRC and NAS messages. SRB0 uses CCCH, SRB1 uses DCCH for RRC messages, SRB2 uses DCCH for NAS messages. SRB3 is used in dual connectivity (EN-DC) for direct RRC signaling between UE and secondary gNB, reducing latency and improving handover efficiency.
183
참고 답변
DNS (Domain Name System) translates domain names into IP addresses so users can access websites without remembering numeric addresses.
184
참고 답변
CQI enables the scheduler to select the best MCS for each UE.
185
참고 답변
Real-time AI coaching for interviews provides instant feedback and expert guidance for practicing coding, behavioral, and system design questions.
186
참고 답변
The session layer manages communication sessions between devices. It establishes, maintains, and terminates connections as needed.
187
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- Beamforming reduces inter-cell interference - Dynamic TDD coordination - ICIC / eICIC (limited) - Power and neighbor optimization - Advanced techniques like CoMP and MU-MIMO
188
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Faster download and upload speeds, lower latency, greater capacity, and supports new use cases like autonomous vehicles, remote surgery, and virtual and augmented reality.
189
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ADVANTAGE: - Allow simultaneous low data rate for several carriers. - Bursty transmission is minimised - Contention based multiple access is simplified - Provide frequency diversity by spreading the carrier across complete available spectrum - Interference within cell can be minimised on an average by allocating carrier based on cyclic permutation within band DISADVANTAGE: - Frequency and phase error sensitivity - diversity gain is not achieved if only few carriers are allocated or same carrier allocated again. - Fast feedback based mechanism required which is more complex - Does not suit to asynch bursty data communication.
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Common hardware networking problems: - Faulty hard drives - Damaged network interface cards (NICs) - Hardware initialisation issues - Inaccurate hardware configuration. Common software networking problems: - Issues related to client-server interactions - Conflicts arising from application compatibility - Errors in configuration settings - Protocol mismatches that cause communication problems - Security concerns and vulnerabilities - Challenges related to user policies and rights management.
191
참고 답변
Handover is triggered by events like A3 (neighbor becomes better) or A5 (serving becomes worse than threshold).
192
참고 답변
The eNodeB uses contention resolution message with the UE's identity.
193
참고 답변
NAS signaling is between UE and MME for core network functions, while RRC signaling is between UE and eNodeB for radio resource management.
194
참고 답변
Control signaling uses the first few symbols of a subframe for PDCCH, PCFICH, PHICH.
195
참고 답변
Beamforming focuses wireless signals.
196
참고 답변
Latency in 5G can be as low as 1 millisecond.
197
참고 답변
I implement regular data backups using both on-site and cloud storage solutions to ensure redundancy. Additionally, I conduct routine disaster recovery drills to test and refine our recovery plans, ensuring minimal downtime in the event of an incident.
198
참고 답변
5G is the fifth generation of mobile network technology, offering higher speeds, lower latency, and greater capacity compared to 4G/LTE. It uses higher frequency bands, advanced antenna technologies like MIMO, and network slicing to support diverse applications such as IoT, autonomous vehicles, and enhanced mobile broadband.
199
참고 답변
Intra E-UTRAN Handover is used to hand over a UE from a source eNodeB to a target eNodeB using X2 when the MME is unchanged. In the scenario described here Serving GW is also unchanged. The presence of IP connectivity between the Serving GW and the source eNodeB, as well as between the Serving GW and the target eNodeB is assumed. The intra E-UTRAN HO in RRC_CONNECTED state is UE assisted NW controlled HO, with HO preparation signalling in E-UTRAN.
200
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Paging DRX reduces congestion by limiting paging transmissions to specific occasions.


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