IEEE Access (Jan 2024)
A Model for Quantifying the Degree of Understanding in Cross-Domain M2M Semantic Communications
Abstract
This paper addresses the problem of semantic communications (SemComs) in intelligent machine-to-machine (M2M) applications. Although M2M applications may employ other languages as the communication medium, natural languages are commonly used as the medium between machines and robots. One favorable characteristic of using natural languages is that it allows humans to inspect communication contents easily, which caters to the needs of security and quality of service for M2M communication. Currently, no exact solutions are available for quantifying and measuring the understanding of M2M communication. This paper identifies three specific challenges in the field: inconsistent knowledge base (KB), cross-domain interpretation, and a measure for understanding the meaning of messages. We propose a model to address these challenges in two steps. First, we propose an evidence-based shared-KB communication model for cross-domain meaning interpretation using Dewey Decimal Classification. Second, we propose a measure to quantify the understanding level through a two-stage validation between the sender and receiver. Real-life datasets and numerical experiments are used to evaluate the model’s performance. The results show that the degree of understanding (DoU) can be successfully measured by observing the performance of the sender and receiver under the same conditions. The proposed method can effectively improve mutual understanding between the two machines.
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