A Just-in-Time Networking Framework for Minimizing Request-Response Latency of Wireless Time-Sensitive Applications

This article puts forth a networking paradigm, referred to as just-in-time (JIT) communication, to support client-server applications with stringent request-response latency requirement. Of interest is not just the round-trip delay of the network, but the actual request-response latency experienced by the application. The JIT framework contains two salient features. At the client side, the communication layer will pull a request from the client just when there is an upcoming transmission opportunity from the network. This ensures that the request contains information that is as fresh as possible (e.g., a sensor reading obtained just before the transmission opportunity). At the server side, the network ascertains that the server, after receiving and processing the request to generate a response (e.g., a control command to be sent to the client), will have a transmission opportunity at just this time. We realize the JIT system, including the protocol stack, over a time-division-multiple-access (TDMA) network implemented on a System-on-Chip (SoC) platform. We prove that a TDMA network with a power-of-2 time slots per superframe is optimal for realizing the server-side JIT function. Our experimental results validate that JIT networks can yield significantly lower request-response latency than networks without JIT support can.

Automated summary

This article introduces a networking paradigm called just-in-time (JIT) communication, which supports client-server applications with strict request-response latency requirements. The JIT framework has two main features: pulling requests from clients just before transmission opportunities and ensuring the server has a transmission opportunity right after processing a request. The study demonstrates that a TDMA network with a power-of-2 time slots per superframe is optimal for implementing JIT functions on the server side. Experimental results confirm that JIT networks can significantly reduce request-response latency compared to networks without JIT support.