On Partly Overloaded Spreading Sequences with Variable Spreading Factor

TL;DR

This paper introduces partly overloaded spreading sequences with variable spreading factors for CDMA systems, enabling flexible support of diverse service types and QoS requirements in future multi-service wireless communications.

Contribution

The paper proposes a novel class of partly overloaded spreading sequences with adjustable spreading factors for improved multi-service CDMA access.

Findings

Sequences are globally orthogonal with selective interference.

Variable spreading factors allow flexible service assignment.

Potential to support diverse QoS in future wireless systems.

Abstract

Future wireless communications systems are expected to support multi-service operation, i.e. especially multi-rate as well as multi-level quality of service (QoS) requirements. This evolution is mainly driven by the success of the Internet of Things (IoT) and the growing presence of machine type communication (MTC). Whereas in the last years information in wireless communication systems was mainly generated or at least requested by humans and was also processed by humans, we can now see a paradigm shift since so-called machine type communication is gaining growing importance. Along with these changes we also encounter changes regarding the quality of service requirements, data rate requirements, latency constraints, different duty cycles et cetera. The challenge for new communication systems will therefore be to enable different user types and their different requirements efficiently. In this paper, we present partly overloaded spreading sequences, i.e. sequences which are globally orthogonal and sequences which interfere with a subset of sequences while being orthogonal to the globally orthogonal sequences. Additionally, we are able to vary the spreading factor of these sequences, which allows us to flexibly assign appropriate sequences to different service types or user types respectively. We propose the use of these sequences for a CDMA channel access method which is able to flexibly support different traffic types.