Year1
- 模块:
- 888
1. Invensys Foxboro/System: B (field input/output module) sequence control, ladder logic control, accident recall processing, digital-to-analog conversion, input/output signal processing, data Communication and processing, etc.
2. Invensys system redundant fault-tolerant control system, the most modern fault-tolerant controller based on triple module redundancy structure.
3.: Industrial robot spare parts C series, etc.
4. Westinghouse: System, system, system spare parts.
5. Honeywell: C system spare parts modules, C series, C, and other spare parts.
6. Yaskawa: servo controller, servo motor, servo driver.
7. Rockwell: , Ryan and other products.
8. Bus and other spare parts
9. Woodward C valve position controller and digital controller.
10. Schneider c series, processors, memory cards, power modules, etc.
11. Motorola, series.
12. Various spare parts such as FANUC modules, cards, drives, etc.
13. Siemens:, C, CNC system, etc.
.Low price sales
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< Xiamen Yingyi Automation Technology Co., Ltd.
< Contact: Fu Youyu
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< ★★★★★★★★★★★★★★★★★★★< br/> .Sell CC at low price
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, The enterprise's task (goal) system has long-term, medium-term, and short-term goals, or it is called planning, planning, and scheduling goals. Goals must also be hierarchically nested. But no matter how it is divided, the goal of the terminal must be implemented into specific entities/or services that can be executed. We must note that the goals of enterprises are often multi-objective, multi-constraint, and dynamically changing. For example, the best service and the lowest cost, such as not working overtime and completing tasks, such as ensuring the delivery of several orders this month even if production capacity is affected, and then exploring production capacity next month. : ,> Back to our definition. The operational decision-making execution system of an industrial system is that the high-level decision-making is to allocate high-level resources based on the enterprise's high-level goals, and the next-level decisions are to allocate sub-resources based on the corresponding sub-goals, and so on. When the determined goals and determined resources become a determined configuration relationship and can no longer be divided, the system enters the execution layer. Above this, they all belong to the decision-making level.
: ,> When humans invented stone tools, human intelligence began to be solidified on the tools. The history of industrial civilization is the history of human beings constantly solidifying human wisdom through soft and hard methods in industrial tools, industrial products and production models. Therefore, the definition of "industrial intelligence" is not important. At the front line of industrial enterprise operations, that is, at the decision-making level, if we use industrial design tools, production tools and equipment, market analysis and marketing networks and technologies that integrate artificial intelligence to assist us or agent workers in completing the materialization of decision-making goals, this is executive intelligence . The decision-making intelligence of industrial systems refers to the ability to optimize the allocation of decision-making goals and limited resources. This is a capability based on the comprehensive integration of system science, management science and information technology. Intelligent decision-making belongs to the science of the century.
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