Seniors in the Department of Mechanical Engineering at the 麻豆免费版下载 are designing a new soft robot to improve physicians鈥 ability to examine the deepest part of a patient鈥檚 lung.
Currently, there is only one system that can get down to the bottom of the lungs 鈥 a rigid catheter that could potentially cause inflammation. The team of mechanical engineering students are working with medical device company on making the tip of that catheter more flexible.
鈥淥ur client is hoping to reduce the strain on the body by replacing the end of the device with something that is very compliant and soft, especially in comparison to the materials that are used today,鈥 said Maxwell Anderson, the team鈥檚 logistics manager. 鈥淲e鈥檙e trying to create a soft robot for the tip that will allow the physician to have more control of the end and have it be less abrasive toward the patient.鈥
The students are tackling this project as part of the department鈥檚 Senior Design course. They have spent the academic year researching, designing, molding and testing various iterations of their soft robot prototype.
An iterative design process
Ren茅e听Schnettler and Maxwell Anderson show how the soft robot bends with air pressure.
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Sean Dunkelsman, William Wang and Brady King test the team's control system.
The team鈥檚 baseline design is a hollow, silicone tube with bubbles on the outside. The bubbles expand as the soft robot is inflated with air pressure, which causes the tube to bend. The students explained that the bending motion is the key aspect of their design, as that configuration is what allows the soft robot to move through the deeper parts of the lung.
鈥淭he catheter still does most of the work during the procedure, and then physicians control the soft robot at the very end to just move the tip,鈥 said Ren茅e Schnettler, the team鈥檚 project manager. 鈥淚t can hook into different areas and allow doctors to send a needle through it to take a sample of any lung tissue they are studying.鈥
The team said they are constantly making new prototypes for testing purposes. The R&D process has resulted in 55 prototypes since fall 2021.听听
鈥淎 lot of what we鈥檝e been doing is building off of our baseline design,鈥 said Isaac Martinez, the CAD engineer on the team. 鈥淲e watch how that prototype behaved and try changing certain dimensions. That would be one iteration. Then we change another aspect, like the number of bubbles, and that becomes a second iteration. We鈥檝e been trying to put together this full picture from a lot of different prototypes.鈥
Each change in the prototype鈥檚 design has been targeted and intentional. That includes adjustments to the soft robot鈥檚 control system.
鈥淥ur control team has spent a lot of time just trying to figure out how we can tell where the tip of the robot is,鈥 said electro-mechanical engineer William Wang. 鈥淲e have been trying to improve our control systems to hit the desired positions, but each iteration of our prototype behaves slightly different depending on the material properties. We鈥檝e been trying to find more robust techniques to control all of them.鈥
Prototyping for future ideas
The students emphasized that they are at the very beginning phase of this project. Their work is all preliminary research and development for Medtronic since the field of soft robotics is relatively new.
鈥淥ur project is a learning experience for us and Medtronic,鈥 said Schnettler. 鈥淭here鈥檚 not really a good way to model this. We can鈥檛 build a SolidWorks simulation and know how it鈥檚 going to behave. You just have to try it, and I think that鈥檚 why Medtronic wanted us to do it. We could just try a bunch of iterations over the year, and then they can scale it down and refine it in the future.鈥
Each of the students on the Senior Design team are proud that their project could one day have a bigger impact by helping patients and their families. Many of seniors have plans to continue this line of work and enter the biomedical engineering field after college.
鈥淭here鈥檚 a large difference between working on something that is a commodity rather than medical devices that people need,鈥 said test engineer Caitlyn Robinson. 鈥淚 already had planned on going into the medical device industry, but working on this project and being exposed to all the different elements comprised with working inside a human body really solidified it for me.鈥
The Senior Design team will present their prototype and control system at the College of Engineering and Applied Science听Engineering Projects Expo 2022听on April 22.