Overview
The unit provides an introduction to the principles of sensing circuits and the inferential techniques required to deploy them for applications in artificial perception. We survey the components of a basic sensor’s circuit architecture in the context of a range of sensing technologies and provide hands-on practice in their construction … For more content click the Read More button below.
Offerings
S1-01-CLAYTON-ON-CAMPUS
S1-01-MALAYSIA-ON-CAMPUS
Requisites
Prerequisite
Contacts
Chief Examiner(s)
Dr Elizabeth Zavitz
Unit Coordinator(s)
Dr Elizabeth Zavitz
Dr Tan Wen Shan
Teaching approach
Peer assisted learning
Online learning
Problem-based learning
Assessment summary
Continuous assessment: 60%
Final assessment: 40%
This unit contains threshold hurdle requirements that you must achieve to be able to pass the unit. You are required to achieve at least 45% in the total continuous assessment component and at least 45% in the final assessment component. The consequence of not achieving a hurdle requirement is a fail grade (NH) and a maximum mark of 45 for the unit.
Assessment
1 - Assignments
2 - Projects
3 - Final assessment
Scheduled and non-scheduled teaching activities
Applied sessions
Practical activities
Workshops
Workload requirements
Workload
Other unit costs
In this unit, you are required to acquire an “ElecLab Toolkit”. Information regarding how to acquire one on your campus is available on this webpage.
Availability in areas of study
E3001 Bachelor of Engineering (Honours) - Specialisation: Biomedical engineering
E3001 Bachelor of Engineering (Honours) - Specialisation: Robotics and mechatronics engineering
Minor: Networks for connectivity
Minor: Sensory systems in Industry 4.0
E3001 Bachelor of Engineering (Honours) - Specialisation: Robotics and mechatronics engineering
Minor: Networks for connectivity
Minor: Sensory systems in Industry 4.0