Design of an Offline Debugging Platform for Dual Medium Nozzles Based on Improved Association Rule Algorithm
Previous offline debugging platforms for dual medium nozzles only calculate a single model of the characteristic pa-rameters of the dual medium nozzle,resulting in a longer debugging time and poorer debugging performance.Therefore,a dual medium nozzle offline debugging platform based on improved association rule algorithm is designed.In terms of hardware,a microprocessor and communicator are designed.In software design,the least squares method is used to parameterize the char-acteristics of the dual medium nozzle.With the support of improved association rule algorithm,corresponding constraint condi-tions and offline debugging objectives are set.By calculating the first order mathematical model,second order mathematical model,and parameter state discrete control model of the dual medium nozzle characteristic parameters,the offline debugging function of the dual medium nozzle is obtained,thereby completing the offline debugging of the dual medium nozzle.Through the design of the above-mentioned software and hardware,an offline debugging platform for the dual medium nozzle is de-signed.In the simulation experiment,compared with previous offline debugging platforms for dual medium nozzles,the de-signed offline debugging platform for dual medium nozzles based on improved association rule algorithm has a total debugging time of only 6.8 ms,which has shorter debugging time and better debugging results.
improved association rule algorithmdual medium nozzleoffline debugging platformsoftware designhardware design
万方数据
维普
