Hongpu Hu, Yanli Xu, Wannian Liang, Yi Lin, Min Liu, Liqun Liu, Pengfei Hu, XiaoXia Peng and Yingchun Peng
The purpose of this paper is to explore concrete design methodology which can improve production technology.
Abstract
Purpose
The purpose of this paper is to explore concrete design methodology which can improve production technology.
Design/methodology/approach
An application of advanced process control (APC) on distributed control systems (DCS) was designed by defining the project target, scope, and control strategy. Calculation is based on heat and mass conservation, such as RPID=FC 203×900×(DC 241 PV‐400)×1.06/500 DC 241 PV; CATRATE=LEVELRATE×0.22×3.14/4. The quality controller writes the control target on the density controller, which writes the initial value or output value onto the DCS.
Findings
The technique has dramatically increased the control quality of the DCS system: production capacity of the equipment has been improved and the aim of fecundity with little input is realized. The transit time of the product name is shortened and the excess stock is reduced.
Originality/value
The paper is aimed at operational researches and engineers.
Details
Keywords
HongPu Hu, WanNian Liang, Aimin Guo, XueMei An, Ping Zhou, JunLI Wang and Yi Lin
The aim is to focus on an automated management and evaluation system to control the operation of community health service (CHS) efficiently.
Abstract
Purpose
The aim is to focus on an automated management and evaluation system to control the operation of community health service (CHS) efficiently.
Design/methodology/approach
On the basis of analyzing existing health laws, regulations, CHS work situation, the authors established the execution method and supervision norm of management for CHS. They used Delphi expert consultation activity and analytic hierarchy process to construct weight coefficient allocation list and synthesize evaluation models: GI=∑I=1NCiPi. The authors synthesized computer technology to design corresponding software, and then completed the spot usage.
Findings
The automated management and evaluation system for CHS has been completed. The system possesses automated management function, automated evaluation function, searching function, the functions of supervision and statistics analysis as well as the feedback. Automated management includes guide and filling‐in, checking‐up, modifying and saving, converging, submitting, examining and approving, receiving, saving to file and issuing formation, etc. Automated evaluation can rank automatically synthesized index or any selected single criterion index in the order of either high to low or low to high. The feedback function is able to be used to convey timely the state of execution, and to offer the bases for further adjustment.
Research limitations/implications
The automated evaluation makes the difficult evaluation work of daily supervision simple and maneuverable.
Practical implications
The systemization and automation of CHS management can control effectively practical operation of CHS.
Originality/value
The study is the first to establish an automated compliance management and evaluation system for Chinese CHS.
Details
Keywords
HongPu Hu, WanNian Liang, YaDong Wang, XueMei An, Ping Zhou, JunHong Li, LiLi Sang and Yi Lin
To present the mechanism, on which the first module was successfully designed – the automated installation application system, in the grand automated management and evaluation for…
Abstract
Purpose
To present the mechanism, on which the first module was successfully designed – the automated installation application system, in the grand automated management and evaluation for community health service (CHS) sector of China.
Design/methodology/approach
The automated installation application system is constructed on the platform of Visual FoxPro8.0. The construction consists of five steps. The first is to establish the “item.” The function of “the item” is to trace all procedures, forms, menus, and various databases, such as tabulated data, summary data, and other types of data. The second is to establish the customer log‐in module. This module needs to contain a roll book of authorized customers. The third is to construct the subsystem management interface. This interface includes: entering installation the application, modifying and saving and transferring out the information, searching, printing blank form and statement. The fourth is to establish a roll book of all forms and the database of all the forms. The fifth is to establish the main procedure, connecting all the modules in the working order.
Findings
The main advantage of the system is that it is helpful for the characteristics of speedy information importation, clear and straight to the point, as well as the secure and accurate data transfer.
Originality/value
Automated management and evaluation for CHS heavily depends on the initial activation and this initiation is started using the system of installation application.