国际学生入学条件
An Ontario Secondary School Diploma (OSSD) with acceptable standing, AND
An overall average in completed Grade 12 U and/or M courses which meets or exceeds the minimum set by the specific program to which you applied, AND
Satisfactory completion of six Grade 12 U and/or M courses including the subject requirements for your chosen program.
IELTS – International English Language Testing System-6.5 overall with a minimum of 6.0 in each of the four components (Reading, Writing, Speaking, Listening), results valid for 2 years
TOEFL – Test of English as a Foreign Language-IBT: 86 overall with a minimum score of 20 in each of the four components (Reading, Writing, Speaking, Listening), valid for 2 years
CAE – Cambridge Advanced English (C1 Advanced and C2 Proficiency)-180 overall with a minimum score of 176 in each component. Valid for 2 years.
PTE – Pearson Test of English Academic-60 overall with minimum score of 60 in Writing and Speaking, valid for 2 years
Duolingo English Test-115 for all direct-entry undergraduate programs
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雅思考试总分
6.5
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雅思考试指南
- 雅思总分:6.5
- 托福网考总分:86
- 托福笔试总分:160
- 其他语言考试:PTE – Pearson Test of English Academic-60 overall with minimum score of 60 in Writing and Speaking, valid for 2 years
CRICOS代码:
申请截止日期: 请与IDP顾问联系以获取详细信息。
课程简介
机电一体化工程是一门现代学科,它超越了嵌入式系统,机械,电气和计算机工程之间的界限。当今的设计师面临着将机械,电子,嵌入式系统和数字信号处理等元素结合在一起的任务,同时还要应对组件的小型化和预制零件的使用。现代精密工程已经包含了各种技术的综合。小型化和制造方面的持续发展将为机电一体化工程师带来进一步的挑战。当前和未来技术的需求要求具有跨学科技能的工程师。机电一体化工程师所需的教育广度不仅可以在短期内提供此类技能,而且可以长期使他们有效地适应快速变化的技术。在不同的大学,机电一体化工程提供了不同的口味-机械
Mechatronics Engineering is a modern discipline that transcends the boundaries between Embedded Systems, Mechanical, Electrical, and Computer Engineering. Today's designers are faced with the task of combining elements of mechanics, electronics, embedded systems and digital signal processing, while coping with the miniaturization of components and use of prefabricated parts. The synthesis of different technologies is already included in modern precision engineering. Continuing developments in miniaturization and fabrication will provide further challenges for Mechatronics Engineers.<br><br>The demands of current and future technologies requires engineers that have interdisciplinary skills. The breadth of education required by Mechatronics engineers will not only provide such skills in the short term, but will enable them in the long term to effectively adapt to rapidly shifting technologies.
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