High-density and Secure Data Transmission via Linear Combinations

TL;DR

This paper presents a network design enabling secure, high-density data transmission between multiple sender-receiver pairs using only linear combinations, without routing or cryptographic assumptions.

Contribution

It introduces a network architecture that achieves secure, high-density communication with minimal channels and simple linear encoding, avoiding cryptographic or complex routing.

Findings

Uses only $n^{o(1)}$ channels for $n$ sender-receiver pairs.

Employs linear combinations for encoding and decoding messages.

No switching or routing elements are needed in the network.

Abstract

Suppose that there are $n$ Senders and $n$ Receivers. Our goal is to send long messages from Sender $i$ to Receiver $i$ such that no other receiver can retrieve the message intended for Receiver $i$. The task can easily be completed using $n$ private channels between the pairs. Solutions, using one channel needs either encryption or switching elements for routing the messages to their addressee. The main result of the present work is a description of a network in which The Senders and the Receivers are connected with only $n^{o(1)}$ channels; the encoding and de-coding is nothing else just very fast linear combinations of the message-bits; and there are no switching or routing-elements in the network, just linear combinations are computed, with fixed connections (channels or wires). In the proofs we do not use {\em any} unproven cryptographical or complexity theoretical assumptions.