国际学生入学条件
Undergraduate students must have successfully completed year 12 or equivalent with a minimum GPA of 2.0. ACT/SAT recommended.
For Bachelor's applicants:
Official high school transcripts and mark sheets (and certified English translations, if applicable)
Official high school diploma/proof of graduation (and certified English translations, if applicable)
Official post-secondary transcripts and diplomas if post-secondary schooling was pursued by applicant (and certified English translations, if applicable) TOEFL 70 iBT IELTS 5.5 (no band lower than 5) TOEFL Paper-based Test 525
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雅思考试总分
5.5
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雅思考试指南
- 雅思总分:5.5
- 托福网考总分:70
- 托福笔试总分:525
- 其他语言考试:PTEA 50
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
电气和计算机工程学位课程涉及硬件,软件,通信及其之间的相互作用的研究。课程侧重于传统电气工程和数学的理论,原理和实践,并将其应用于计算机和基于计算机的设备的设计。电气和计算机工程学位的学生学习数字硬件系统的设计,包括通信系统,计算机和包含计算机的设备。他们研究软件开发,重点是数字设备的软件及其与用户和其他设备的接口。电气工程和计算机工程理学学士学位课程强调在工程和数学基础上建立硬件和软件之间的平衡方法。当前,电气和计算机工程领域的主要领域是嵌入式系统,即嵌入式软件和硬件的设备的开发。例如,诸如手机,数字音
The Electrical and Computer Engineering program involves the study of hardware, software, communications, and the interactions between them. Its curriculum focuses on the theories, principles, and practices of traditional electrical engineering and mathematics and applies them to the design of computers and computer-based devices. Electrical and Computer Engineering students study the design of digital hardware systems including communications systems, computers, and devices that contain computers. They study software development, focusing on software for digital devices and their interfaces with users and other devices. The program emphasizes a balanced approach between hardware and software, both built on an engineering and mathematics foundation. Currently, a dominant area within Electrical and Computer engineering is embedded systems, the development of devices that have software and hardware embedded within. For example, devices such as cell phones, digital audio players, digital video recorders, alarm systems, X-ray machines, and laser surgical tools all require integration of hardware and embedded software and all are the result of computer engineering. The undergraduate program is structured to establish analytical thinking and design skills in areas such as computer architecture, digital logic design, circuits analysis, computer communication networks, digital computer control, integrated circuit engineering, project management, VLSI design, digital signal processing, and embedded systems. <br><br>Be in the communications center between hardware and software by enrolling in the Bachelor of Science in Electrical and Computer Engineering degree program. The program's curriculum focuses on the theories, principles, and practices of traditional electrical engineering and mathematics and applies them to the design of computers and computer-based devices the devices that now seem to run the world. Throughout the computer and electrical engineering degree program, youll study the design and development of both digital hardware systems and the software that enables that hardware and how both users and other hardware interact with those systems. Because clean computer engineering is at the heart of how hardware and software work together, a central focus will be on embedded systems that rely on both, such as cell phones, digital audio players, digital video recorders, alarm systems, x-ray machines, and laser surgical tools. Your analytical thinking and design skills will be encouraged and developed in the pursuit of the finest integration of the devices making a profound difference in everyday life.<br><br>In support of the mission of National University, the educational objective of the BS in Electrical and Computer Engineering program is to prepare graduates to achieve success in one or more of the following with a few years after graduation: Succeed in pursuing a chosen career path and demonstrate technical competence in utilizing electrical and computer engineering principles and skills in industry, academia, or the public sector. Engage in sustained learning through graduate education, professional development, and self-study in engineering and other professionally related fields. Function successfully on a diverse and multidisciplinary team with effective communication skills. Exhibit leadership, high standards of ethical conduct, and societal responsibility in the practice of engineering.
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