1162  5G Advanced and 6G for IoT

1163 5G Advanced: The Next Evolution in Cellular IoT

NoteLearning Objectives

By the end of this section, you will be able to:

• Understand 5G-Advanced (Release 17-18) features for IoT
• Compare RedCap, NB-IoT, LTE-M, and full 5G for different use cases
• Design network slicing architectures for diverse IoT requirements
• Evaluate private 5G networks for enterprise IoT deployments
• Understand URLLC capabilities for mission-critical applications
• Prepare for 6G and its implications for IoT (2030+)

1163.1 Prerequisites

Before diving into this chapter, you should be familiar with:

• Cellular IoT Fundamentals: Basic cellular IoT concepts
• NB-IoT Fundamentals: Narrowband IoT technology
• LPWAN Introduction: Low-power wide-area networking

NoteRelated Chapters

Cellular IoT: - Cellular IoT Fundamentals - Basic concepts - NB-IoT Fundamentals - Narrowband IoT - Cellular IoT Applications - Use cases

Comparisons: - LPWAN Introduction - LPWAN landscape - LoRaWAN Overview - Unlicensed alternative

NoteKey Takeaway

In one sentence: 5G-Advanced introduces RedCap devices that bridge the cost-capability gap between NB-IoT ($5) and full 5G ($100), while network slicing enables dedicated virtual networks for different IoT requirements on shared infrastructure.

Remember this: Match device category to requirements: NB-IoT for 10+ year battery sensors, LTE-M for mobile tracking, RedCap for wearables and cameras, and URLLC slice for sub-millisecond industrial control.

1163.2 Chapter Overview

This topic is covered in three focused chapters:

1163.2.1 5G Device Categories for IoT

Deep dive into selecting the right 5G device category:

• NB-IoT, LTE-M, RedCap, Full 5G NR comparison
• RedCap specifications and use cases (Release 17-18)
• Cost-performance trade-offs ($3-5 to $50-100 per module)
• Device category selection decision tree

1163.2.2 5G Network Slicing for IoT

Understanding virtual networks on shared infrastructure:

• Network slicing architecture (eMBB, URLLC, mMTC)
• Private 5G deployment models (standalone, hybrid, carrier slice)
• Spectrum options (CBRS, n78, mmWave)
• Cost analysis: private vs carrier slicing

1163.2.3 5G URLLC and 6G Vision

Mission-critical IoT and future technologies:

• URLLC requirements (<1ms latency, 99.9999% reliability)
• Power saving features (PSM, eDRX for 10+ year battery)
• 6G timeline and capabilities (2030+, 100x improvements)
• LTE-M handover optimization for mobile fleet tracking

1163.3 For Beginners: Understanding 5G Evolution

TipWhat is 5G-Advanced and Why Does It Matter for IoT?

The 5G Evolution: - 5G (Release 15-16): The initial 5G we have today - 5G-Advanced (Release 17-18): Enhanced 5G, arriving 2024-2025 - 6G (Release 21+): Next generation, expected 2030+

Why 5G-Advanced Matters for IoT:

1. RedCap (Reduced Capability): New device class between full 5G and NB-IoT
   • Cheaper than full 5G (simpler chips)
   • More capable than NB-IoT (higher data rates)
   • Perfect for: Wearables, industrial sensors, cameras
2. Better Positioning: Centimeter-level location accuracy
   • Critical for: Autonomous vehicles, drones, warehouses
3. Improved Power Efficiency: Extended battery life
   • Important for: All battery-powered IoT
4. Network Slicing: Virtual private networks within 5G
   • Use case: Dedicated capacity for critical IoT

Analogy: Think of it like airline tickets: - NB-IoT = Economy (cheap, basic, gets you there) - RedCap = Premium Economy (better comfort, reasonable price) - Full 5G = Business Class (all features, higher cost) - URLLC = Emergency lane (guaranteed priority, highest cost)

1163.4 5G Evolution Timeline

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timeline
    title 3GPP Release Timeline for IoT
    2016 : Release 13
         : NB-IoT, LTE-M introduced
    2018 : Release 15
         : 5G NR Phase 1
         : eMBB focus
    2020 : Release 16
         : 5G NR Phase 2
         : URLLC, V2X
    2022 : Release 17
         : 5G-Advanced begins
         : RedCap introduced
         : NTN (satellite)
    2024 : Release 18
         : Enhanced RedCap
         : AI/ML integration
         : XR support
    2025 : Release 19
         : Further 5G-A enhancements
    2030 : Release 21+
         : 6G begins

Figure 1163.1: 3GPP release timeline showing 5G evolution from Release 13 to 6G

{fig-alt=“3GPP release timeline from 2016 to 2030 showing IoT evolution: Release 13 (2016) introduced NB-IoT/LTE-M, Release 15-16 (2018-2020) brought 5G NR with eMBB and URLLC, Release 17-18 (2022-2024) is 5G-Advanced with RedCap and NTN, Release 21+ (2030) begins 6G era.”}

1163.5 5G Device Categories Quick Reference

Feature	NB-IoT	LTE-M	RedCap	Full 5G NR
Peak DL	250 kbps	1 Mbps	150 Mbps	10+ Gbps
Peak UL	250 kbps	1 Mbps	50 Mbps	1+ Gbps
Latency	1-10 s	10-15 ms	5-10 ms	<1 ms (URLLC)
Bandwidth	200 kHz	1.4 MHz	20 MHz	100+ MHz
Modem Cost	$3-5	$5-10	$15-25	$50-100
Battery	10+ years	5-10 years	1-5 years	Days-weeks
Use Case	Sensors, meters	Asset tracking	Wearables, cameras	Phones, FWA

For detailed device category selection guidance, see 5G Device Categories for IoT.

1163.6 Network Slice Types for IoT

Slice Type	SLA Guarantee	IoT Use Case
eMBB	Throughput (100+ Mbps)	Video surveillance, AR/VR
URLLC	Latency (<1 ms), Reliability (99.999%)	Factory automation, autonomous vehicles
mMTC	Density (1M devices/km²)	Smart meters, agriculture sensors
Custom	Application-specific	Private IoT networks

For network slicing architecture and private 5G deployment, see 5G Network Slicing for IoT.

1163.7 6G Performance Targets

Parameter	5G	6G Target	Improvement
Peak Rate	20 Gbps	1 Tbps	50x
User Rate	100 Mbps	1 Gbps	10x
Latency	1 ms	100 μs	10x
Reliability	99.999%	99.99999%	100x
Density	1M/km²	10M/km²	10x
Energy Efficiency	Baseline	100x better	100x

For URLLC details and 6G vision, see 5G URLLC and 6G Vision.

1163.8 Visual Reference Gallery

NoteVisual: Cellular IoT Technology Comparison

Cellular IoT Comparison showing NB-IoT, LTE-M, and 5G capabilities

This visualization provides a comprehensive comparison of cellular IoT technologies from NB-IoT through full 5G NR, highlighting the trade-offs between power consumption, data rate, and latency that inform device category selection.

NoteVisual: Cellular IoT Evolution Timeline

Cellular IoT Evolution from 2G to 5G

This evolution diagram traces the development of cellular IoT from early 2G M2M applications through today’s 5G-Advanced era, showing how each generation introduced new capabilities for IoT devices.

NoteVisual: Cellular Modem Architecture

Cellular Modem internal architecture

Understanding the internal architecture of cellular modems helps explain the cost and power differences between NB-IoT, RedCap, and full 5G NR device categories discussed in this chapter.

1163.9 Summary

TipKey Takeaways

1. 5G-Advanced (Release 17-18) introduces RedCap for mid-tier IoT devices

2. RedCap fills the gap between NB-IoT ($5) and full 5G ($100) with ~$20 modems

3. Network slicing enables custom virtual networks for different IoT requirements

4. Private 5G offers dedicated capacity, low latency, and data sovereignty

5. URLLC achieves 1ms latency and 99.999% reliability for critical IoT

6. Power saving (PSM, eDRX) enables multi-year battery life for NB-IoT/LTE-M

7. 6G (2030+) will bring sensing, AI-native networks, and 100x improvements

1163.10 What’s Next

Explore 5G for IoT in depth:

• 5G Device Categories - NB-IoT to 5G NR selection
• 5G Network Slicing - Virtual networks and private 5G
• 5G URLLC and 6G Vision - Mission-critical IoT and future
• Private 5G Networks - Enterprise deployment guide