| Application of Intelligent Living Laboratory |
| Location:E-308.1 |
| Ext. Number:4741 |
| Application of Intelligent Living Laboratory (Kun-Wei Lin): this lab is for courses on Intelligent robot, and Information security technology practice and research. Supporting courses are Intelligent robots, Microprocessor systems, Introduction to VLSI, Introduction to embedded systems, Computer-aided circuit design, Introduction to the design of digital integrated circuits, Intelligent electronics application design introduction, and Intelligent electronic technology. |
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| Network Laboratory |
| Location:E-518 |
| Ext. Number:4743 |
| Network Laboratory (Tzay-Farn Shih): this laboratory is mainly for research related courses in computer network operations. Supporting Computer networks, High-speed networks, Information theory and the foundation, Wireless networking, Communication studies, Network management and undergraduate project. |
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| Programming Laboratory |
| Location:E-519 |
| Ext. Number:4744 |
| Programming laboratory (Hshie-Chou Liao): this laboratory is for research related courses in computer network operations. Supported Programming language, Assembly language, Data structure, , Object-oriented programming C++, Object-oriented programming Java, Compiler programming, Database management, Algorithm Design and undergraduate project. |
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| Embedded system Laboratory |
| Location:E-517 |
| Ext. Number:4749 |
| Embedded System Laboratory (Honda Chen) (RedHat examination center approved by the Red Hat Academy): the laboratory is for the courses on embedded systems design, practice and research. Supporting courses are embedded systems research, Computer architecture and organization, Multiprocessor system design, Embedded processor design and undergraduate projects. |
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| Precision Machining Platform Control Laboratory |
| Location:M-413 |
| Ext. Number:4554 |
| Precision Machining Platform Control Laboratory (Hsien-Chou Liao) : 15 two-dimensional work platforms for industrial use and 10 one-dimensional platforms for industrial use. For technical personnel training. Characteristic and objective: Cultivating students with 1. basic software and hardware implementation capacity: the basic skills of information technology professionals that the precision machinery industry required. 2. industrial precision machinery and equipment software development capabilities: industrial equipment software development capabilities, speed up time related devices integrated into the company's product. 3. the implementation capacity of the precision instruments industry automation technology: automation of the precision machinery industry has always been a very important goal, so students have the ability to use information technology, to complete the automation process needs. 4. ability to integrate system planning and design of precision machinery: precision machinery industry often face a variety of industrial production or manufacturing needs requires planning and design of equipment for use by the manufacturer. Support courses: Industrial robotic arm control implements principles of program design, Computer vision, Sensor and implementation, Network programming, Introduction to intelligent robots, Programming practice, Object-oriented programming practice, and Microprocessor system practice. |
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| Industrial Robotic Arm System Laboratory |
| Location:E-309 |
| Ext. Number:4742 |
| Industrial Robotic Arm System Laboratory (Wen-Chang Cheng) : 6 industrial robotic arm system, high precision machinery for training in information technology skills and talents. Characteristic and objective: Cultivating students with 1. basic software and hardware implementation capacity: the basic skills of information technology professionals that the precision machinery industry required. 2. industrial precision machinery and equipment software development capabilities: industrial equipment software development capabilities, speed up time related devices integrated into the company's product. 3. the implementation capacity of the precision instruments industry automation technology: automation of the precision machinery industry has always been a very important goal, so students have the ability to use information technology, to complete the automation process needs. 4. ability to integrate system planning and design of precision machinery: precision machinery industry often face a variety of industrial production or manufacturing needs requires planning and design of equipment for use by the manufacturer. Support courses: Industrial robotic arm control implements principles of program design, Computer vision, Sensor and implementation, Network programming, Introduction to intelligent robots, Programming practice, Object-oriented programming practice, and Microprocessor system practice. |
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