Master of Professional Accounting – Master of Business Administration
The Master of Professional Accounting – Master of Business Administration program...
Cairns
INTAKE: Jul & Feb
The Bachelor of Engineering (Honours) in Electronic Systems and Internet of Things Engineering program at James Cook University (JCU) provides students with a comprehensive education in electronic systems design, Internet of Things (IoT) technologies, and related fields. This program equips students with the knowledge and skills required to develop innovative electronic devices, embedded systems, and IoT solutions for various applications. Through theoretical study, practical laboratory work, and industry placements, students gain hands-on experience and expertise in areas such as digital electronics, sensor networks, wireless communication, data analytics, and cloud computing.
Curriculum: The curriculum of the Bachelor of Engineering (Honours) in Electronic Systems and IoT Engineering program covers a wide range of topics relevant to the field. Core courses include digital system design, microcontroller programming, sensor technology, wireless communication systems, data acquisition and analysis, cloud computing, and IoT architecture. Students also study mathematics, physics, computer programming, and engineering design. The program includes laboratory experiments, design projects, and industry-based learning opportunities to provide students with practical skills and real-world experience. The curriculum is designed to meet accreditation requirements and prepare graduates for professional engineering practice in the rapidly evolving field of electronic systems and IoT.
Research Focus: JCU is committed to research excellence in electronic systems and IoT engineering, and students in the Bachelor of Engineering (Honours) program have opportunities to engage in research projects and collaborate with faculty members on cutting-edge research initiatives. Research areas may include wireless sensor networks, smart cities, healthcare applications, environmental monitoring, and industrial automation. Students can participate in research internships, honors projects, and industry-sponsored research programs, gaining valuable research skills and experience that enhance their academic and professional development.
Industry Engagement: The Bachelor of Engineering (Honours) in Electronic Systems and IoT Engineering program at JCU emphasizes industry engagement and practical experience to ensure that graduates are well-prepared for the demands of the engineering profession. Students have opportunities to participate in industry placements, internships, and cooperative education programs with leading technology companies, IoT solution providers, telecommunications firms, and research organizations. Industry-engaged learning experiences allow students to apply their classroom knowledge to real-world engineering challenges, develop professional networks, and gain insight into industry practices, standards, and regulations.
Global Perspective: As a globally focused institution, JCU offers Bachelor of Engineering (Honours) in Electronic Systems and IoT Engineering students a diverse and inclusive learning environment with a global perspective on engineering and technology. The program explores international trends in electronic systems design, IoT applications, and emerging technologies, preparing students to work in multicultural and interdisciplinary teams. JCU's partnerships with international universities, research institutions, and industry partners offer students opportunities for international exchanges, collaborative research projects, and global engineering internships. Through global engagement, students gain a broader understanding of global engineering challenges and develop the skills and mindset needed to address complex issues facing society and the environment in the context of electronic systems and IoT.
Cairns
IELTS 6
AUD 35800
Undergraduate Entry Requirements
Academic Qualifications: Applicants for undergraduate programs typically require a minimum academic achievement of 65% or above in their previous academic qualifications.
English Language Proficiency:
Students must provide:
It's important to note that entry requirements can vary by program and may change over time. Additionally, some programs may have additional requirements, such as interviews, portfolios, or work experience.
JCU is supporting international students in their pursuit of higher education. The university offers various scholarships designed to assist eligible students in achieving their academic and career goals.
Vice-Chancellor's International Scholarship: This prestigious scholarship is awarded to high-achieving international students across various study areas. It provides a significant reduction in tuition fees and is highly competitive.
Dean's Scholarship for Excellence: This scholarship is aimed at international students who have demonstrated outstanding academic performance. It offers financial support by reducing tuition fees.
JCU Access Fund Scholarship: This scholarship supports students facing financial hardship, offering assistance to cover tuition fees and living expenses.
Tropical Environmental Scholarship: Designed for international students passionate about environmental conservation and research, this scholarship provides financial support for related programs.
Sporting Scholarships: JCU recognizes the importance of sports and offers scholarships to athletes who excel in their chosen sport while pursuing their academic goals.
Indigenous Scholarships: JCU is supporting Indigenous students by providing scholarships that facilitate access to higher education.
Country-Specific Scholarships: JCU offers scholarships tailored to specific countries, encouraging cultural diversity and international collaboration.
External Scholarships: JCU also facilitates access to external scholarships and funding opportunities that international students may be eligible for.
Graduates of James Cook University's Bachelor of Engineering (Honours) in Electronic Systems and Internet of Things Engineering program possess a diverse skill set that opens up numerous career opportunities in various industries.
IoT Engineer: One of the primary career paths for graduates is to work as IoT engineers, specializing in the design, development, and implementation of Internet of Things (IoT) solutions for various applications. IoT engineers work in industries such as smart cities, healthcare, agriculture, transportation, manufacturing, and energy. They design and deploy IoT systems comprising sensors, actuators, embedded systems, communication networks, and cloud-based platforms to collect, analyze, and act on data from physical assets and environments. IoT engineers may work on projects such as smart home automation, industrial IoT, environmental monitoring, and asset tracking, contributing to the development of connected and intelligent systems that enhance efficiency, safety, and sustainability.
Embedded Systems Engineer: Graduates may pursue careers as embedded systems engineers, focusing on the design, development, and programming of embedded systems for various electronic devices and applications. Embedded systems engineers work in industries such as consumer electronics, automotive, medical devices, aerospace, and industrial automation. They design and program microcontroller-based systems, firmware, and real-time operating systems to control and monitor electronic devices such as smartphones, wearables, home appliances, automotive systems, and industrial machinery. Embedded systems engineers may work on projects such as IoT edge devices, wearable technology, autonomous vehicles, and smart sensors, leveraging their expertise in hardware-software integration, low-power design, and real-time communication.
Wireless Communication Engineer: Some graduates may choose to specialize in wireless communication engineering, focusing on the design, optimization, and deployment of wireless communication systems and protocols for IoT applications. Wireless communication engineers work in industries such as telecommunications, networking, IoT, and satellite communications. They design and test wireless communication systems such as Wi-Fi, Bluetooth, Zigbee, cellular networks, and satellite systems to enable connectivity and data exchange between IoT devices and cloud-based platforms. Wireless communication engineers may work on projects such as IoT connectivity solutions, wireless sensor networks, low-power wide-area networks (LPWAN), and satellite communication systems, contributing to the development of reliable and scalable wireless infrastructure for IoT deployments.
Data Analyst/Engineer: Graduates can pursue careers as data analysts or data engineers, specializing in the collection, storage, processing, and analysis of data generated by IoT systems. Data analysts/engineers work in industries such as big data analytics, data science, machine learning, and artificial intelligence. They design and implement data pipelines, databases, and analytics platforms to extract insights from IoT data and support decision-making processes. Data analysts/engineers may work on projects such as predictive maintenance, anomaly detection, pattern recognition, and optimization algorithms, leveraging their expertise in data visualization, statistical analysis, and programming languages such as Python and R.
Systems Architect/Consultant: Some graduates may choose to work as systems architects or consultants, providing expertise in designing and implementing end-to-end IoT solutions for clients in various industries. Systems architects/consultants work for technology companies, consulting firms, and system integrators, helping clients define IoT requirements, assess technology options, and develop IoT strategies. They design scalable and interoperable IoT architectures, select appropriate hardware and software components, and oversee system integration, testing, and deployment. Systems architects/consultants may work on projects such as smart city initiatives, industrial automation, precision agriculture, and healthcare IoT solutions, guiding clients through the entire IoT lifecycle from concept to implementation.