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    • 1. 发明授权
    • Apparatus and method for analysis of continuous process lines
    • 连续生产线分析装置及方法
    • US6018716A
    • 2000-01-25
    • US889550
    • 1997-07-08
    • Patrick F. DenardoPhilip D. HeinleinTimothy J. MaguireDavid J. Wolstromer
    • Patrick F. DenardoPhilip D. HeinleinTimothy J. MaguireDavid J. Wolstromer
    • G06Q10/06G06Q10/10G06F17/60
    • G06Q10/10G06Q10/063G06Q10/1095
    • A network computer system and method for analyzing a system of continuous process lines. Groupware is used to implement the analysis stage of continuous flow manufacturing (CFM) methodology using a network of portable computers. Preferably in one meeting, in response to prompts of a facilitator, participants input all the required qualitative and quantitative data about each process line in the system being analyzed. The input data is anonymously displayed to all the participants, the data is corrected and verified by group consensus achieved informally or by automatic tabulation of anonymous voting as needed. The verified data is organized into a GroupWare database (flat files and/or a part of a relational database). Bridge programs automatically read the GroupWare database and reorganize the data to create a program input database. Then preferably in the same meeting a flow chart program (e.g. a computer aided design CAD system) is used to generate flow charts for each process line from the program input database and a report program (e.g. the report module of a database management system) is used to generate data sheets for the process steps from the program input database. The flow charts and data sheets are corrected and revised until verified by group consensus. Thus, the analysis of a system of continuous processes can be performed in one or at least in a small number of group meetings over a much shorter elapsed time.
    • 一种用于分析连续过程线系统的网络计算机系统和方法。 Groupware用于实现使用便携式计算机网络的连续流程制造(CFM)方法的分析阶段。 优选地,在一次会议中,为了响应促进者的提示,参与者输入关于正在分析的系统中每个生产线的所有必需的定性和定量数据。 输入数据被匿名显示给所有参与者,数据通过非正式的团体共识或根据需要自动列出匿名投票来更正和验证。 验证的数据被组织成GroupWare数据库(平面文件和/或关系数据库的一部分)。 Bridge程序自动读取GroupWare数据库并重新组织数据以创建程序输入数据库。 然后最好在同一次会议中,使用流程图程序(例如计算机辅助设计CAD系统)来从程序输入数据库生成每个处理线的流程图,并且报告程序(例如数据库管理系统的报告模块)是 用于从程序输入数据库生成过程步骤的数据表。 流程图和数据表被更正和修改,直到按组共识验证。 因此,连续过程系统的分析可以在经过短得多的时间内以一个或至少少数的小组会议执行。
    • 2. 发明授权
    • System for failure mode and effects analysis
    • US5586252A
    • 1996-12-17
    • US247953
    • 1994-05-24
    • Raymond F. BarnardStephen L. DohanichPhilip D. Heinlein
    • Raymond F. BarnardStephen L. DohanichPhilip D. Heinlein
    • G06F11/22G06Q10/10G06F11/34
    • G06Q10/10G06F11/2273
    • A team is selected to perform failure mode and effects analysis (FMEA) in a meeting moderated by a trained facilitator. A combination of group-ware, data bases, bridge programs and report generators configure RAM in a network of workstations in a meeting room to manage prompting members, recording responses, reaching consensus and documenting results. The members are prompted for and simultaneously enter failure modes for an apparatus or process into their respective workstations. The information is displayed anonymously to the other members. The correctness of input is verified by consensus including voting with automatic anonymous tallying, if required. A final list of failure modes is prepared, verified for correctness and completeness, and entered into the data base. For each failure mode a description of its effects and quantities for relative severity of occurrence, likelihood of occurrence, and likelihood of detection or mitigation are similarly generated, verified, and entered into the data base. Then the three quantities are automatically multiplied to determine a risk prioritization number (RPN). Bridge programs automatically generate an FMEA report in columnar form to document all the information in the data base. In order of RPN, in subsequent meetings, the causes of failure modes, current controls to prevent the effects or causes, proposed actions to further reduce the RPN, and the person responsible for implementing and reporting the results are generated, verified and entered into the data base. A second FMEA document with all this information is automatically generated and verified. Later in a group meeting, the actions which have been implemented and new quantities for relative severity of occurrence, likelihood of occurrence, and likelihood of detection or mitigation are similarly generated, verified and entered into the data base. A new RPN is automatically calculated and a third FMEA document is generated.