Litcius/Paper detail

Experimental and numerical studies of intestinal frictions for propulsive force optimisation of a vibro-impact capsule system

Bingyong Guo, Ellis Ley, Jiyuan Tian, Jiajia Zhang, Yang Liu, Shyam Prasad

2020Nonlinear Dynamics57 citationsDOIOpen Access PDF

Abstract

Abstract This paper studies the intestinal frictions acting on a millimetre-scale self-propelled capsule (26 mm in length and 11 mm in diameter) for small bowel endoscopy by considering different capsule–intestine contact conditions under a wide range of capsule’s progression speeds. According to the experimental results, intestinal frictions vary from 7 mN to 4.5 N providing us with a guidance for designing the propelling mechanism of the controllable capsule endoscope. Our calculations show that the proposed vibro-impact mechanism can perform as a force magnifier generating a much larger propulsive force on the capsule than its original driving force. Therefore, the self-propelled capsule is capable of moving in the small intestine under a wide range of friction variation.

Topics & Concepts

CapsuleMechanism (biology)MechanicsMillimeterCapsule endoscopyRange (aeronautics)PhysicsControl theory (sociology)OpticsEngineeringBiologyComputer scienceAerospace engineeringArtificial intelligenceMedicineBotanyQuantum mechanicsRadiologyControl (management)Gastrointestinal Bleeding Diagnosis and TreatmentGastrointestinal disorders and treatmentsGastrointestinal Tumor Research and Treatment
Experimental and numerical studies of intestinal frictions for propulsive force optimisation of a vibro-impact capsule system | Litcius