Supported by the Tam Wing Fan Innovation Wing (Inno Wing), a VAYU robotic fish project developed by a student team from the Faculty of Engineering at the University of Hong Kong (HKU) set the Guinness World Record of 26.79s for “The Fastest 50m Swim by a Robotic Fish” on January 23, 2020.
Compared with the world records set by human swimmers in long course swimming pools ratified by International Swimming Federation (FINA), the robotic fish swim faster than women in the breaststroke (29.40s1) and backstroke (26.98s2).
Robotic technology provides us with the power to explore the unknown and save human beings from life-risking tasks. However, current technology is still far from being able to recreate a robotic fish with high swimming speeds of natural fishes in open water, which has gone through millions of years of natural evolution.
While scientists have created fast-swimming fishlike-robots under steady laboratory environments, it forgoes the challenge of an open sea, where firstly, it needs to be self-contained to complete a long-distance swim and secondly, to deal with the complex dynamics of the ocean.
Led by the Department of Mechanical Engineering, the VAYU Project is a joint effort with the Department of Electrical & Electronic Engineering and Computer Science of the Faculty of Engineering.
More than 40 students contributed to the project over the years, and the fish development theme has made its way into several final year projects and student research projects, including a sponsored BREED project under the Inno Wing.
The project supervisor noted that this project attempts to push the boundary of scientists’ understanding of robotic fishes in the real world, mimicking the behaviour of real biological fishes for oceanic exploration, and as a platform for further research on natural aquatic species behaviours.
The project was first initiated by a BEng (CE) student and now a graduate. He wanted to develop fast swimming, self-contained robotic fish which is capable of traversing long distances. He aimed to have the fish complete a 50m swim in a long course pool within 30 seconds while having biomimetic propulsion specifically an undulating caudal fin. Later, a team was established with a PhD student of Mechanical Engineering.
This project has been in development for four years. Throughout the years, with the team constantly evolving and growing, several prototypes have been developed and a few attempts have been made to reach the 30s target.
The biggest challenge is how to start building a record-breaking fish. The team has decided to replicate the natural movements of a fish which is something robots have tried to avoid in the past. However, they felt it was a pathway worth exploring.
After a few successful iterations on the prototypes, the team made its first-ever attempt in November 2017 at the HKU Stanley Ho Sports Center and achieved the closest attempt to the world record, 50m in 34s, 4 seconds short of the existing record.
The robotic fish went through drastic changes as the team strived to find a balance between its speed, weight, durability and reliability.
After several failed attempts with different prototypes like “White Fish”, “Fat Tuna Fish” and “Yellow Tail”, the team eventually managed to instil the strength of stainless steel into 3D printed plastic, a much lighter material, and developed the latest prototype “OMEGA Fish”.
The team carried out a series of tests with “OMEGA Fish” in January 2020 at the CUHK Shenzhen Natatorium in Mainland China. They successfully made a world record-breaking time of 00:26:795’ for a 50m swim on 23 January 2020.
After reviewing the full set of records and evidence, the Guinness World Record Organisation officially recognised the VAYU Project with its new world record “The Fastest 50m Swim by a Robotic Fish” of 26.79s.
The Dean of Engineering at HKU stated the win is a result of the collective effort of students from different disciplines. It is also a good example of how the university’s students apply their professional knowledge to develop solutions with real-world impact.
With this record, the hope is to raise public interest in ocean exploration as well as make these types of robotics projects an annual challenge among the HKU team.