Abstract
Integrated silicon photonics has sparked a significant ramp-up of investment in both academia and industry as a scalable, power-efficient, and eco-friendly solution. At the heart of this platform is the light source, which in itself, has been the focus of research and development extensively.
Abstract
The project aims at designing a robot control/planning algorithm and an image processing pipeline (software) for 3D image reconstruction of an unknown object. A robotic manipulator equipped with an imaging sensor will be used to collect data, and a pipeline will be developed to merge collected data points and segment/identify target objects.
Abstract
Indoor air quality (IAQ) is a major concern for many people, especially those who spend a lot of time indoors, such as in office environments. One of the indicators of IAQ is Carbon dioxide (CO2) which, in high concentrations, could lead to drowsiness, headaches, nausea, and an increase in heart rate.
Abstract
You will learn how to anchor recognition units on electrode surfaces, characterize electrode properties, and analyze their performance in basic biosensing.
Deliverables
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Electrode characterization results
Abstract
Conventional solar trackers are mechanical systems which allow the solar cell to track the sunlight, thus increasing the energy output per day and over the year.
Abstract
The Advanced Semiconductor Lab is proposing a novel project to address the challenge of shrinking transistors and the need for higher efficiency in electronic devices. The project focuses on the development of 3D integrated circuits, where transistors are integrated in both the vertical and lateral directions.
Abstract
Students will be engaged in design, simulation and evaluation of a body area network using on-skin communication modules. Accurate, real time sensing of body vital functions leads to better preventative medicine approached and more accurate diagnosis.
Abstract
At the CCSL, we are engaged in research and teaching on wireless communication methods for future wireless communication systems. In future wireless communication 5G and beyond, an extremely high number of heterogeneous devices, such as smartphones, sensors, robots, and vehicles, will communicate with each other.
Abstract
Capacitive touch screens are the most prevalent type of touch screens used in modern smartphones. They work based on the electrical properties of the human body. When we touch the screen with our fingers, it creates a disruption in the screen's electrostatic field. The smartphone detects this change and registers the touch.
Abstract
Nowadays, advances in renewable energies, electric vehicles, and smart microgrids are providing solutions to environmental and energy problems, but also pose technological challenges that can be tackled by dynamic and highly motivated students.