RIDA-M: SIGNAL CHANNELIZATION MANAGEMENT OF COMMAND RESPONSE DATA STATUS USING ROW INDEX DATA ACCESS MATRIX TECHNIQUE
Rida Hudaya(a*), Trisno Yuwono Putro(a), Muhamad Rafhi Rihadatus Syawal(a), Julian Harith Al Banny Hudaya(a)

a) Electrical Electronic Engineering, Politeknik Negeri Bandung, Jl. Gegerkalong Hilir, Ciwaruga, Kec. Parongpong, Kabupaten Bandung Barat, Jawa Barat, Kode Pos 40559, Kotak Pos Bandung 1234

Abstract

This article explores the application of the rida-M (Row Index Data Acces Matrix) technique in processing command, response, data, and status signals within Embedded Systems. The rida-M Processor acts as a data bridge, enabling seamless data transfer between different embedded systems, regardless of protocol similarities or differences. The rida-M technique offers significant advantages in signal management within embedded systems, particularly in industrial settings where diverse protocols and data types are prevalent. This approach not only streamlines the design and implementation process but also enhances system flexibility and maintainability. The rida-M technique works by mapping various signals into an indexed row matrix to facilitates efficient communication and data exchange across various embedded systems, potentially improving overall system performance and reducing integration challenges. The rida-M technique was originally developed for input or output homogeneous signals only. It was later developed for heterogeneous signals. However, this article will describe the development of the rda-M technique for signals with random direction and type through the management of a standalone embedded system. The rida-M technique demonstrates several noteworthy characteristics. Its instruction lines increase almost linearly with the number of signals it manages, while maintaining a relatively constant level of management complexity. Beyond its primary function as a communication facilitator, the rida-M technique serves as a universal data bridge, enabling smooth integration between older systems and cutting-edge technologies, thus ensuring uninterrupted industrial operations. This adaptability can result in significant cost reductions by eliminating the need for multiple specialized interfaces or comprehensive system upgrades. Moreover, the linear correlation between managed signals and instruction lines, combined with consistent management difficulty, indicates that the rida-M approach can efficiently scale to accommodate increasingly sophisticated embedded systems without a corresponding rise in operational complexity.

Keywords: Data Bridge, Embedded Systems, Rida-M, Signal Management, Signal Mapping

Topic: Digital Industry 4.0