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1. Introduction

This section preserves the RFC text for RAW technologies, including Wi-Fi 6/7, IEEE 802.11, TSCH, 6TiSCH, 5G NR, TSN/TSC integration, UE, gNB, RAN, UPF, PDU sessions, LDACS, PHY/MAC terms, figures, tables, and security considerations.

Original RFC Text

1.  Introduction

Deterministic Networking (DetNet) [RFC8557] provides a capability to
carry specified unicast or multicast data flows for real-time
applications with extremely low data loss rates and bounded latency
within a network domain. Techniques that might be used include (1)
reserving data plane resources for individual (or aggregated) DetNet
flows in some or all of the intermediate nodes along the path of the
flow, (2) providing explicit routes for DetNet flows that do not
immediately change with the network topology, and (3) distributing
data from DetNet flow packets over time and/or space (e.g., different
frequencies or non-shared risk links) to ensure delivery of each
packet in spite of the unavailability of a path.

DetNet operates at the IP layer and typically delivers service over
wired lower-layer technologies such as Time-Sensitive Networking
(TSN) as defined by IEEE 802.1 and IEEE 802.3.

The Reliable and Available Wireless (RAW) architecture [RFC9912]
extends the DetNet architecture [RFC8655] to adapt to the specific
challenges of the wireless medium, in particular, intermittently
lossy connectivity, by optimizing the use of diversity and
multipathing. [RFC9912] defines the concepts of reliability and
availability that are used in this document. In turn, this document
presents wireless technologies with capabilities, such as time
synchronization and scheduling of transmission, that would make RAW
operations possible over such media. The technologies studied in
this document were identified in the charter during the RAW Working
Group (WG) formation and inherited by DetNet (when the WG picked up
the work on RAW).

Making wireless reliable and available is even more challenging than
it is with wires, due to the numerous causes of radio transmission
losses that add up to the congestion losses and the delays caused by
overbooked shared resources.

RAW, like DetNet, needs and leverages lower-layer capabilities such
as time synchronization and traffic shapers. To balance the adverse
effects of the radio transmission losses, RAW leverages additional
lower-layer capabilities, some of which may be specific or at least
more typically applied to wireless. Such lower-layer techniques
include:

* per-hop retransmissions (also known as Automatic Repeat Request
(ARQ)),

* variation of the Modulation and Coding Scheme (MCS),

* short-range broadcast,

* Multi-User - Multiple Input Multiple Output (MU-MIMO),

* constructive interference, and

* overhearing whereby multiple receivers are scheduled to receive
the same transmission, which saves both energy on the sender and
spectrum.

These capabilities may be offered by the lower layer and may be
controlled by RAW, separately or in combination.

RAW defines a network-layer control loop that optimizes the use of
links with constrained spectrum and energy while maintaining the
expected connectivity properties, typically reliability and latency.
The control loop involves communication monitoring through
Operations, Administration, and Maintenance (OAM); path control
through a Path Computation Element (PCE) and a runtime distributed
Path Selection Engine (PSE); and extended Packet Replication,
Elimination, and Ordering Functions (PREOF).

This document surveys the short- and middle-range radio technologies
over which providing a RAW service is suitable, presents the
characteristics that RAW may leverage, and explores the applicability
of the technologies to carry deterministic flows. The studied
technologies are Wi-Fi 6/7, Time-Slotted Channel Hopping (TSCH), 3GPP
5G, and L-band Digital Aeronautical Communications System (LDACS).
The purpose of this document is to support and enable work on the
these (and possibly other similar compatible technologies) at the
IETF, specifically in the DetNet Working Group working on RAW.

This document surveys existing networking technology; it does not
define protocol behaviors or operational practices. The IETF
specifications referenced herein each provide their own security
considerations, and lower-layer technologies provide their own
security at Layer 2; a security study of the technologies is
explicitly not in scope.