Any real time application of computer integrated manufacturing? and services systems concepts as published in any journal or magazine?
Computer-Integrated Manufacturing (CIM) in engineering is a method of manufacturing in which the entire production process is controlled by computer. The traditional separated process methods are joined through a computer by CIM. This integration allows that the processes exchange information with each other and they are able to initiate actions. Through this, integration the manufacturing can be faster and with fewer errors, although the main advantage is the ability to create automated manufacturing processes. Typically CIM relies on closed-loop control processes, based on real-time input from sensors. It is also known as flexible design and manufacturing. It includes CAD/CAM, computer-aided design/computer-aided manufacturing, CAPP, computer-aided process planning, CNC, computer numerical control machine tools, DNC, direct numerical control machine tools, FMS, flexible machining systems, ASRS, automated storage and retrieval systems, AGV, automated guided vehicles, use of robotics and automated conveyance, computerized scheduling and production control, and a business system integrated by a common data base. Therefore the scope for such complicated technology in today's time is tremendous. Hope this helps. All the best!
Computer integrated manufacturing is using different computer and technological practices to integrate manufacturing procedures. These processes take the product from the design phase all the way through to the finalized product.
The "piece of paper" is what is called 'virtual' it is a representative of a real piece of paper but is actually an image of one. The program that presents you with this virtual paper and allows you to type on it (an print what you have typed as a real bit of paper) is called a "word processing" application. This application must be present (installed) on your computer for you to be able to do this.
An example of flexible manufacturing is the use of robotic systems in an automotive assembly line. These robots can be programmed to perform different tasks, such as welding, painting, or assembling various components, allowing the production line to easily adapt to changing designs or quantities. This flexibility enables manufacturers to quickly respond to market demands while minimizing downtime and costs associated with retooling. Additionally, systems like computer-integrated manufacturing (CIM) further enhance flexibility by coordinating various processes in real-time.
it is an input from a user from the real world(a real world input) that is input from either sensors or user input data to a real time application or any other type of applications.
To make an application to run on Mac OS X using a computer using Windows would require software that provides cross-platform support such as Real Studio or Live Code (See links below).
Eddy van Hulle has written: 'Design of an integrated real-time foreign exchange application' -- subject(s): Data processing, Foreign exchange administration
For someone packing whole house the cubic function is important to factor the amount of storage needed to move a home. Another real application would be in manufacturing and filling a box with product.
Computer software. High fixed costs to develop; manufacturing cost per unit virtually nil.
Application of definitApplication of definite Integral in the real life
system real time business engineering and scientific embedded personal computer Artificial Intelligence network based
The most common application of Robotics today is manufacturing robots. The industrial arm robots that car commercials often show are one type of manufacturing robots. Robots today may be used in fishing. RoboFisher is a example of such invention. This robot allows anyone to catch fish from his mobile device or computer. The robot itself is placed on the bank of a real lake and you control the entire fishing process.