Analyze the failure characteristics specific to facilities, equipment, and devices from failure information and create a database! This will lead to actual actions that reduce customer opportunity loss.
◆Do you have any of the following concerns?◆ - You have gathered failure information but don't know what to do with it. - You want to make good use of the collected failure information. - You want to analyze the failure information yourself but don't know the best method. - You want to connect the analysis results to actions to reduce missed opportunities. ◆Organizing Failure Information Data and Building a System◆ Our company addresses the above concerns by: 1. Clarifying the problem awareness. 2. Presenting and selecting the key performance indicators (KPIs) that should be calculated. 3. Creating a database for failure information. 4. Conducting analysis using the current failure data. 5. Considering actions derived from the analysis results. 6. Building a system to carry out steps 1 to 5. We assist in organizing failure information and building a system that allows customers to choose actions that could reduce defects and failures leading to missed opportunities based on the analysis results. The above content assumes that failure information has been collected in advance or can be collected, but we can also respond if the failure information is extremely limited or not gathered at all. (*1) *1: Please contact us separately if you would like to see detailed materials.
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basic information
**Contents** - Clarification of Objectives - Overview of Proposed Evaluation Methods - Analysis and Database Creation Utilizing Failure Information - Weibull Analysis - Bayesian Statistics - MCMC Method - Numerical Modeling/Database Creation of Analysis Results - Reliability Evaluation of Operating Equipment - Calculation of Failure Rates for Equipment and Systems Using Reliability Block Diagrams (RBD) - Qualitative Risk Assessment and Identification of Actions and Safeguards - Risk Assessment and Evaluation of System Vulnerabilities and Safety - Considerations Based on Operating Environment (*2) - Examination of Optimal Maintenance Costs and Cycles - Calculation of Differences in Operating Rates Considering Maintenance Parameters - Creation of Risk Matrix (Including Actions) - Database Creation and Visualization - Visualization of Equipment Status Using Risk Assessment Methods - Prediction of Necessary Actions and Timing Based on Risks - Evaluation by Overlaying Sensor Values and Operating Conditions - Estimation of Next Work Timing Based on Sensor Values (Implementation of CBM) *For more details, please refer to the catalog or feel free to contact us.*
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Applications/Examples of results
Achievements - Railway Operations 1 - Recording and analyzing failure information and inspection data - Conducting reliability assessments and providing tools - Building risk matrices - Presenting methods for developing maintenance strategies based on RCM - Railway Operations 2 - Managing inspections, collecting and recording measurement values - Automatically setting the next maintenance schedule based on measurement values - Placing orders with contractors based on automatically set plans - Aerospace - Estimating failure rates in the absence of failure information (Bayesian statistics) - Examining and presenting failure cause analysis methods - Infrastructure - Asset management - Risk calculations and automatic creation of inspection and update schedules based on risk - Automatic budget calculations for the next 100 years - Reevaluating risks and updating plans based on inspection results
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Company information
Our company develops and sells a "Maintenance Management System" for managing and operating various plants, factories, and other facilities and assets. Currently, this system is undergoing significant evolution into a system that incorporates IoT technologies, such as sensor information and input from tablet devices, as well as AI technologies like machine learning, featuring functions for failure prediction and automatic scheduling. Additionally, as part of the recent trend of digital transformation (DX), there is a growing movement to digitize and automate manufacturing processes and research and development sites in factories to improve operational efficiency. In line with this trend, our company provides a solution aimed at enhancing efficiency in research and development environments, which is the Laboratory Information Management System (LIMS). This software includes features such as workflow management, data tracking, data management, data analysis, and integration of electronic lab notebooks.
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