COMPLEX MONITORING OF STATE OF DYNAMIC OBJECTS AND SYSTEMS Russian patent published in 2016 - IPC G06F19/00 

FIELD: instrumentation.

SUBSTANCE: invention relates to complex monitoring. Before measurements, matrix unit-job is generated in every process-and-control station hardware-software complex (HSC) for every monitoring means for control over the dynamic system or object state. Note here that said matrix unit-job comprises the components that follow. The submatrix-job to measure the magnitudes of the required set of parameters of controlled object state. The submatrix-job to vary the content of the base of knowledge and procedure for application of new object measured parameter intellectual processing ways. The submatrix-job to vary the HSC spatial-time characteristics in monitoring. Before additional measurements matrix unit-job with the data that follow is loaded in the data base of monitoring execution means knowledge via communication channels: enumerated new object measured parameter intellectual processing procedures, rules of the job interpretation and display, rules of the division of matrix-job into submatrix-job and generation of messages about monitoring results, rules of application of the measured magnitudes intellectual processing procedures, rules of variation of said intellectual processing procedures, identifiers of the kind of actions and their priorities at the change of contents of the rules data base. The dispatcher module is loaded in the monitoring means measurement system to control parameter inquiry frequency, selection and operation of selected set of measurement modules and operation of measured parameters conversion module. If necessary, in the case of on-line variation of the job, types and structure of dynamic system are transmitted via communication lines from the HSC control means. The monitoring processor receives and converts the message containing the matrix-unit job by the data transceiver hardware. Converted message is transmitted to the I/O module for submatrix-job messages to be isolated and copied. Thereafter, submatrix unit-measurement job copy is transmitted to the measurement system dispatcher while the submatrix-job copy is transmitted to the data base of rules and data base of knowledge. Said dispatcher generates the composition and controls the operation of generated set of measurement modules that execute the measurements at preset frequency. Then, the results of the state parameter measurements are transmitted to the conversion module to get the magnitudes and to generate the converted magnitude files of preset shape. The converted magnitude matrix is composed of said files and transmitted to the data base. Then, in compliance with the control rules, said files are transmitted from the data base to intellectual processing module for evaluation of parameter estimate magnitudes and/or dynamic system integral characteristics to be calculated. These are compared with the tolerances to calculate the magnitudes and to form the matrix of dimensionless indices of compliance (mismatch) and dummy indices of mismatch between evaluated and preset magnitudes of dynamic system state controlled parameters. Then, the matrix of indices is transmitted to I/O module and included in the content of the message about actual state of dynamic system to be transmitted via data transceiver hardware as a complex signal to process-and-control station for it to be converted and output in the required form.

EFFECT: enhanced performances of monitoring means and systems.

3 cl, 2 dwg, 10 tbl