5G - Edge Multiple Choice Questions and Answers MCQ Village (2023)

Here in this post we will discuss 5G Edge Multiple Choice Questions and Answers | Q&A on 5G Edge objective type

F1 A parent returns home for the evening and uses various smart devices to help the kids with their homework, turn on the stove, run the robotic vacuum cleaner, and turn on the home security system for the night. What enables parents to easily carry out all this?

  1. Massives MIMO
  2. Blockchain
  3. Enterprise Platforms
  4. Internet of Things
  5. I do not know that yet


Q2.Edge computing is often referred to as "topology". What does this term describe?

  1. where the different parts of an application are located
  2. a set of programming languages ​​used to develop an application
  3. how much computing power an application consumes
  4. a synonym that can be used interchangeably with "technology".


Find all Accenture TQ answers here –Accenture TQ

Q3.How does edge computing reduce latency for end users?

  1. by placing computing resources closer to users
  2. by limiting application access to one user at a time
  3. B. by enlarging the central data center of the company
  4. B. by migrating applications from one cloud provider to another


Q4.A global apparel company wants to create a more immersive shopping experience for its customers. How can the company use edge computing to help the business achieve this goal?

  1. Set up an online payment system to increase in-store check-out time
  2. Using sensors to track a customer's browsing habits and create a virtual dross booth
  3. Installation of digital cables on items that can be scanned by customers for more details
  4. Analyzing a client's par purchase and violating Clomizerbre recommendations


Q5.What is a reason for users and enterprises to adopt 5G networks?

A. 5G infrastructure is less complex than previous generations, so rollout will be much faster.

B. Significant speed improvements in network technology, enabling new use cases and applications.

C. The 4G network is failing and no improvements have been added since its inception ten years ago.

D.Mobile devices designed for 4G will not connect to 5G networks and will become obsolete within the next two years.


Q6.What is differentiator of 5G mmWave?

A. It can easily penetrate walls and barriers. B.It has better reception for indoor use. C.It can support an infinite number of devices. D. It can transfer large amounts of data quickly.


F7. An electronics company is developing a range of augmented reality headsets for use in 3D interactive media applications using 5G mmWave technology. However, customers in rural areas have complained of issues with being unable to connect more than their urban and suburban counterparts. What could be contributing to the connectivity issues that rural customers are encountering?

  1. The rural areas do not have enough cellular sites to support mmWave.
  2. Cell towers in rural areas are not big enough to support mmWave.
  3. Headset signals are downgraded to a previous generation.
  4. The connection density in the rural areas is too high, which leads to reduced bandwidth.


Q8.How does beamforming improve network service?

  1. by sharing service signals between devices on a network
  2. by connecting devices directly to power sources
  3. by using multiple antennas to increase range and bandwidth
  4. by using device locations to better target service signals


Q9 How do users connected to a network benefit from lower latency?

  1. by reducing the delay in sending and receiving data between devices
  2. by allowing more devices to be connected to the network at the same time
  3. by extending the range over which the network's signals travel
  4. by restricting network access to users with higher security credentials


Q10. If a person's mobile phone is designed to work with 4G technology, what happens when a 5G network rolls out in their area?

  1. Your phone will only work when you are out of range of 5G networks.
  2. They lose their service when the 4G network is disabled to make room for the 5G network
  3. Your phone will automatically update itself to work with the new 5G network
  4. They will be served over the 4G network for at least a few more years.


Q11.A large industrial machine can monitor environmental conditions and quickly shut down and alarm when it detects a dangerous situation. What feature of the technology makes this possible?

  1. connection density
  2. effective range
  3. improved bandwidth
  4. reduced latency


Q12.What is the underlying concept of edge computing?

  1. Move computing resources closer to the source or the user of the data source
  2. Deliver files to end users at the fastest possible speed
  3. Using beamforming to improve the efficiency of a network
  4. Transmission of the maximum amount of data over a single connection


F13. A user in India can shop from an online retailer headquartered in Canada across multiple devices, including laptop, tablet and mobile phone, with minimal lag or disconnection. How does edge computing make this possible?

  1. by requiring a secure login to connect to the website from different devices
  2. by disabling certain features on the site to reduce the likelihood of sync issues
  3. by limiting the total number of users on the network to improve performance
  4. by using duplicate servers in multiple geographic locations to reduce latency


Q14.What will the Internet of Things (IoT) enable?

  1. controls network traffic in densely populated areas
  2. increases the transmission range of network signals
  3. translates signals between operating systems of different network generations
  4. enables everyday physical devices to exchange data


Q15.A transportation organization wants to implement better experiences for customers. How can the organization use edge computing to help it achieve this goal?

  1. Real-time train occupancy data is collected and reported on the platform.
  2. Passengers can purchase and process ticket changes via kiosks on the platform. keting through
  3. Passengers use an app on their phone to view current train schedules and ticket prices.
  4. Transport companies track passengers with mobile devices and upload data to a central bank.


Q16.What is an advantage of 5G mmWave technology?

  1. It has a low frequency, which allows it to transmit over longer distances.
  2. It easily passes obstacles such as walls and trees.
  3. It provides coverage for low-density rural and suburban areas.
  4. It can transmit a large amount of information with low latency.


Q17.What describes the relationship between 5G and edge computing?

  1. 5G networks will make edge computing obsolete.
  2. 5G expands the possibilities of edge computing.
  3. Edge is a new network that competes with 5G.
  4. Edge computing is not possible without 5G.


Q18.Why does 5G mmWave need more cells to achieve better signal?

  1. A higher bandwidth requires more transmitters.
  2. Higher frequencies have a shorter range.
  3. Lower bandwidth requires consistent coverage, Genos
  4. Lower frequencies are more easily blocked.


Q19. A car's on-board navigation system picks up a signal that an accident is about to happen and warns the driver while suggesting an alternative route. What aspect of a 5G network helps in this situation?

  1. increased bandwidth
  2. virtual reality
  3. reduced latency
  4. higher connection density


Q20.A large offshore oil platform needs to transmit signals between different devices on the platform with high reliability and low latency. However, they cannot cover the platform with their existing WiFi connections. What is the best solution for the platform in this scenario?

  1. route all web traffic through corporate headquarters
  2. Building a private 5G network on the platform itself
  3. Adding a satellite connection to the existing Wi-Fi network
  4. Construction of new 5G cellular sites between the platform and the shore


Q22. A freezer factory needs to monitor temperatures on machines, check inventory levels, and provide sensors on lights and doors. What should the factory do to meet these requirements?

  1. Add antennas inside and outside the building
  2. Improve latency over the wireless network
  3. Install devices that use edge computing
  4. Use more base stations to better record daily activity


Q23. A healthcare customer wants to develop wearable devices that constantly monitor the health status of critical patients, suggest medications, and notify a doctor in an emergency. How do 5G and edge computing work together to make this possible?

  1. B. by turning off less frequently used devices
  2. by delivering critical information with minimal delay
  3. by routing all signals through a single central server
  4. by storing patient data on a blockchain


Q24.What happens after the first rollout of a new network generation?

  1. The new generation of networks will be further developed and improved over the entire service life.
  2. The development of the network is frozen until the rollout of the next network generation.
  3. The previous generation of networks will be deactivated after a transition period of a few months.
  4. All devices created to work with the previous generation of networks must be updated or lose service.


Q25.A construction company wants to improve safety and efficiency at its sites. What is an example of a solution that requires the use of edge computing and the Internet of Things (IoT)?

  1. an automated system that manages work schedules and equipment needs
  2. Networks that connect construction sites to exchange data on project work
  3. wearable digital tags that workers can use to request help from supervisors
  4. a database that logs information about hours worked and tasks


Q26.What situation would benefit most from using edge computing?

  1. A theater wants to record performances for its website
  2. A clothing company wants to track customer preferences
  3. An offshore oil rig needs to process data more efficiently
  4. An IT department wants to increase the capacity of its central server


Q27.What does the latency show?

  1. the number of MIMO antennas used to connect a device
  2. the amount of energy required to establish a network connection
  3. the delay time between an action and a response
  4. the number of devices currently connected to the network



How does 5G technology enhance the Internet of Things MCQ village? ›

This speed will maximize the ability of IoT devices to connect and transfer data very fast. For example, when it comes to smart home devices, this increase in speed helps to slow down and improve overall speed when connected devices send and receive data and notifications.

What are the most popular 5G frequency bands Mcq? ›

To generate high speeds, 5G utilizes the band of spectrum between 30 GHz and 300 GHz. What is this band of spectrum called?
  • Millimeter wave.
  • Lower-frequency spectrum.
  • Real-time spectrum.
  • Radio-frequency band.

Can 5G support up to a devices per square kilometer? ›

5G is expected to support up to 1 million connected devices per 1 square kilometre, compared to around 2,000 connected devices per 1 square kilometre with 4G.

What are the three main types of connected services 5G is used across? ›

A: Broadly speaking, 5G is used across three main types of connected services, including enhanced mobile broadband, mission-critical communications, and the massive IoT.

How will 5G benefit rural areas? ›

The 5G network will provide the speed, reliability, and connectivity that rural areas require, accelerating their growth significantly. The need of fixed broadband will remain high due to the increased data usage in rural areas.

What describes the relationship between 5G and edge? ›

5G increases speeds by up to ten times that of 4G, whereas mobile edge computing reduces latency by bringing compute capabilities into the network, closer to the end user.

Which 5G band is fastest? ›

High Band. High-band 5G (mmWave) operates at 24GHz and beyond offering the fastest speeds across short distances. Densely populated cities and businesses use the high band to give the best 5G performance to a targeted area.

How many 5G bands are there in the world? ›

The bands 600 MHz, 700 MHz, 800 MHz, 900 MHz, 1.5 GHz, 2.1 GHz, 2.3 GHz and 2.6 GHz are considered for traditional coverage applications and new specific usages such as Internet of Things (IoT), Industry Automation, and Business Critical use cases.

How many total 5G bands are there? ›

What are the different 5G bands available in India? There are essentially three types of 5G bands supported in India — low-band, mid-band, and high-band (mm Wave) – based on frequency. Simply put, the higher the frequency, the better the speed and shorter the range of the network.

How far can a 5G signal travel? ›

5G Tower Range

In general, the 5G Ultra Wideband network's signal can reach up to 1,500 feet without obstructions. Verizon is leveraging small cell technology to help deliver more 5G signal which directly increases the coverage and speed of the network.

Does 5G use too much battery? ›

Because your phone is connected to multiple networks simultaneously, the battery will drain faster than one would typically expect, and the phone may get warmer than when solely on 3G or LTE.

How many watts is 5G signal? ›

Let us try it out: Antenna transmission power is anywhere between 250mW (expressed as 24 dBm) for a Small Cell, and 120W for the largest 5G MIMO arrays (which is 50 dBm). A typical 2G, 3G, or 4G antenna has got a transmission power of 20W (43 dBm).

What are 5 technologies that enable 5G? ›

The key enabling technologies used in 5G networks include Device-to-device (D2D) communication, Machine-to-machine (M2M) communication, Millimetre Wave, Quality of Service (QoS), Network Function Virtualization (NFV), Vehicle-to-everything (V2X), Full-Duplex and Green Communication.

Which three elements are key in 5G use cases? ›

The rollout of 5G will provide benefits in three major areas, also known as the “5G triangle”:
  • uRLLC: Ultra Reliable Low Latency Communication use cases.
  • mMTC: Massive Machine Type Communication (IoT) use cases.
  • eMBB: Enhanced Mobile Broadband – high speed use cases.
Nov 25, 2019

How does 5G change society? ›

The fast data speeds and low latency of 5G will allow for rapid communication between machines, improving efficiency and reducing the risk of errors. In addition, the increased capacity of 5G networks will enable more factories to be connected to the internet, leading to increased automation and productivity.

Will a 5G phone work better in rural areas? ›

5G Will Go Rural But With Less Capacity

The multi-gigabit speeds and massive capacity you hear about with 5G is by and large an urban phenomenon, driven by the huge bandwidths of millimeter-wave spectrum, which doesn't travel very far.

How will 5G impact society? ›

The key functional drivers of 5G will unlock a broad range of opportunities, including the optimization of service delivery, decision-making, and end-user experience. This will result in $13.2 trillion in global economic value by 2035, generating 22.3 million jobs in the 5G global value chain alone.

What type of network is edge? ›

EDGE (also known as Enhanced GPRS or EGPRS) is a data system used on top of GSM networks. It provides nearly three times faster speeds than the outdated GPRS system. The theoretical maximum speed is 473 kbps for 8 timeslots but it is typically limited to 135 kbps in order to conserve spectrum resources.

How do 5G and edge computing work together? ›

5G can dramatically increase network speed compared to 4G, while Edge computing reduces latency by bringing compute capabilities closer to end-users, ultimately making them more accessible. This article explores how Edge computing and 5G are complementary technologies that stand to benefit each other.

What is the role of 5G in edge computing? ›

5G and edge computing are on the rise

, combined with 5G, creates opportunities to enhance digital experiences, improve performance, support data security and enable continuous operations in every industry. Edge computing brings computation and data storage closer to where data is created by people, places and things.

How does 5G technology helps the internet of things? ›

5G Internet of Things Applications

People can use a 5G IoT network to park their cars without going to a parking spot. Similarly, you can directly summon it. Farmers can use the IoT network to monitor crops and livestock and control equipment remotely. Doctors can perform surgeries remotely with low latency equipment.

How does 5G technology enhance the internet of things Accenture? ›

How does 5G technology enhance the Internet of Things (IoT)? answer: - by supporting greater numbers of connected devices.

How does 5G affect Internet of Things? ›

5G will increase cellular bandwidth by huge amounts, making it much easier for the Internet of Things to network large numbers of devices together.

How is 5G related to the internet of Things IoT? ›

With 5G, data-transfer speeds will increase significantly. According to reports, 5G will be 10 times faster than current LTE networks. This increase in speed will allow IoT devices to communicate and share data faster than ever.

What are 3 benefits of 5G? ›

5G can provide high speeds, low latency and massive capacity, offering the potential to change what you experience with your mobile device, and much more. 5G should help revolutionize industries and can provide immediate impact for customers.

What are the benefits and challenges of 5G technology? ›

While 5G networks offer benefits in bandwidth, latency, and reliability, it also brings design challenges around RF, power, timing, and testing. 5G adoption is in full swing, delivering higher-bandwidth, lower-latency, and higher-reliability networks.


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