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CAME™ - Maintenance Optimization Modules |
CAMETM - Maintenance Optimization Modules
| An Expert System for Optimal Maintenance Planning |
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CAME is an expert system for maintenance optimization and planning which provides a broad range of optimization methodologies designed to address asset intensive discrete industries (Aerospace & Defense, Textiles, etc.) and process industries (Chemical, Gas & Oil, etc.)
CAME is a powerful design support tool that provides various maintenance optimization modules. Each CAME Software module carries its own complete functionality and can be combined in several ways with other CAME modules, simply and efficiently. Modular maintenance optimization design therefore leads to more powerful software, reduces the time required to build and commission new feature tailored for specific industry, hence improving maintenance optimization performance and reducing cost.
All CAME modules can be easily integrated to any database of Legacy, EAM, ERP or CMMS system.
CAME periodically collects relevant data from the management system database. Such data may include: failure information, maintenance tasks, spare parts transaction, financial data, etc. CAME provides the analyzed and optimized recommendations via an interface of CAME or direct transfer data to other maintenance management systems.
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CAME modules are:
- Life Cycle Cost Analysis (LCC)
- Optimal Repair Analysis Level (ORLA)
- Preventive Maintenance Optimizer (PMO)
- Periodic Inspections Optimizer (PIO)
- Sparing to Availability (S2A)
- Resources to Availability (R2A)
- Reliability Centered Maintenance (RCM)
- Maintenance Steering Group MSG-3 (by ATA)
Key Benefits
- Can be used under ERP / EAM / CMMS tools
- Reduces maintenance and logistic costs
- Reduces resource waste
- Increases availability and performance
- Minimizes the system down time damage
- Avoids unplanned downtime
- Increases productivity and profitability
- Minimizes the system / equipment repair costs during its life cycle
- Recommends repair or discard policy for each assembly
- Recommends repair sites and stock sites for each assembly
- Recommends equipment repair only when needed
- Optimizes preventative maintenance and inspection schedules
- Groups preventative and inspection tasks in one combined cycled scheduled time slot to minimize down time
- Keeps equipment in top working condition
- Minimizes spare parts kept in stock
- Evaluates 'pooling' options and shared spare part strategies
- Minimizes the total cost of purchasing, storing and transporting spare parts
- Creates a basis for spare part logistics
- Compares alternative vendors and supply routes
- Reduces probability of running out of stock
- Reduces human resource costs
- Reduces support equipments, tools and materials costs
- Enables an improvement in maintenance personnel utilization
- Creates a basis for maintenance personnel, support equipments, tools, facilities and materials records
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