Cellular Protocols Review

Drag each word or use case to the corresponding cellular protocol.

Wide Coverage Area

Vehicle Tracking

Smart Cities

eMBB

URLLC

Limited Coverage

Surveillance Cameras

Reliable and Robust

High Power Consumption

Broadband Speeds

Lacks Infrastructure

mMTC

5G

4GLTE

Solution

Next

Drag each word or use case to the corresponding cellular protocol.

5G

4GLTE

Reliable and Robust

Limited Coverage

Wide Coverage Area

URLLC

High Power Consumption

Lacks Infrastructure

Smart Cities

Broadband Speeds

Surveillance Cameras

Vehicle Tracking

mMTC

eMBB

Solution

Next

Drag each word or use case to the corresponding cellular protocol.

Small Amounts of Data

Asset Tracking

Deep Signal Penetration

Widest Signal Reach

More Power Efficient than LTE

No Mobile Support

Suppports Voice

Very Small Amounts of Data

Supports Mobile

Best Power Efficiency

Smart Meters

Built for IoT

NB-IoT

LTE-M

Solution

Drag each word or use case to the corresponding cellular protocol.

NB-IoT

LTE-M

Widest Signal Reach

Suppports Voice

Very Small Amounts of Data

Small Amounts of Data

Deep Signal Penetration

Smart Meters

Asset Tracking

Supports Mobile

No Mobile Support

Best Power Efficiency

More Power Efficient than LTE

Built for IoT

Solution

NB-IoT was built specifically for IoT, specializing in even smaller data packets than LTE-M. It was optimized for power efficiency and signal penetration. NB-IoT is not suitable for mobile applications because it can't handle the handoff between towers.

NB-IoT

Built specifically for IoT, LTE-M specialized for small, infrequent data transmissions. LTE-M is able to support mobile applications and voice. LTE-M also uses significantly less power than standard LTE.

LTE-M

LTE is known for its coverage and speed. It is a robust protocol that supports a variety of services, including voice and video streaming. It is ideal for solutions that need real time, high quality video. LTE also requires a relatively high amount of power from the connected device.

4GLTE

5G enables faster internet speeds on our phones and devices, greatly reduces latency, and can support millions of devices per square mile. 5G is still in the early stages of development, meaning coverage and infrastructure are limited and implementation costs are still high.

5G

LTE is known for its coverage and speed. It is a robust protocol that supports a variety of services, including voice and video streaming. It is ideal for solutions that need real time, high quality video. LTE also requires a relatively high amount of power from the connected device.

4GLTE

5G enables faster internet speeds on our phones and devices, greatly reduces latency, and can support millions of devices per square mile. 5G is still in the early stages of development, meaning coverage and infrastructure are limited and implementation costs are still high.

5G

NB-IoT was built specifically for IoT, specializing in even smaller data packets than LTE-M. It was optimized for power efficiency and signal penetration. NB-IoT is not suitable for mobile applications because it can't handle the handoff between towers.

NB-IoT

Built specifically for IoT, LTE-M specialized for small, infrequent data transmissions. LTE-M is able to support mobile applications and voice. LTE-M also uses significantly less power than standard LTE.

LTE-M