Ziqun (Helena) Hua

Ziqun Hua focuses on the universal possibility and application of the combination of technology and design.

Ziqun Hua graduated from the University of Shanghai for Science and Technology majoring in mechanical design and automation (BA) in 2020.

Then, studying integrated industrial design (Msc) at Loughborough University led her to focus on the practice of AI-related smart technologies in inclusive design for minority groups. During her studies at the Royal College of Art, she further expanded the discussion of inclusive design in the context of the future post-Anthropocene, that is, whether it is possible for us to extend the approach of inclusive design to be about Design applications for other creatures in nature.

Helena_Huahua@163.com

︎Portfolio 2020
︎CV
Ziqun (Helena) Hua

Ziqun Hua focuses on the universal possibility and application of the combination of technology and design.

Ziqun Hua graduated from the University of Shanghai for Science and Technology majoring in mechanical design and automation (BA) in 2020.

Then, studying integrated industrial design (Msc) at Loughborough University led her to focus on the practice of AI-related smart technologies in inclusive design for minority groups. During her studies at the Royal College of Art, she further expanded the discussion of inclusive design in the context of the future post-Anthropocene, that is, whether it is possible for us to extend the approach of inclusive design to be about Design applications for other creatures in nature.
Helena_Huahua@163.com

︎Portfolio 2020
︎CV

MUTANT FACTORY


2022
(Teamwork)

Utilizing GPS technology to effectively track the distribution of fish populations, the future outlook regarding the survival and variation of fish quantities is deduced based on existing pollution data. In the future, individuals will be able to track real-time variations in fish populations at desired marine locations through this platform. This will allow them to immerse themselves in corresponding marine environments and experience the variations in fish population morphology using AR/VR technology. The project employs VR game modelling to simulate the evolution of fish populations and marine environments, enabling people to experience these monumental changes within the gaming process for better empathy.


Full Presentation 💬️
Interface Prototype 🤖️