Airflow vibration of diaphragmatic breathing: model and demonstration using optical biosensor

Saktioto, Toto; Defrianto, Defrianto; Hikma, Nurfi; Soerbakti, Yan; Syamsudhuha, Syamsudhuha; Irawan, Dedi; Okfalisa, Okfalisa; Widiyatmoko, Bambang; Hanto, Dwi

doi:10.12928/telkomnika.v21i3.23613

Cited by 3 publications

(2 citation statements)

References 26 publications

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“…In situations where standard stiff robots would struggle, these robots, which are frequently constructed from materials that are soft and flexible, perform exceptionally well. There are a variety of applications for surgical robots, including soft grippers used in manufacturing and surgical robots that simulate the dexterity of human hands [18], [27], [30], [32]- [34].…”

Section: Soft Robotics and Bioinspired Designsmentioning

confidence: 99%

An overview of emerging trends in robotics and automation

Sutikno

2023

IJRA

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Robotics has experienced significant growth and development over the past few decades, with the first industrial robots introduced in the 1950s. As technology advances, robotics has become more intelligent, smart, and flexible, with the introduction of artificial intelligence (AI) and machine learning (ML). Robots are now being integrated into various fields, including healthcare, agriculture, transportation, and space exploration. Robots are set to revolutionize our daily lives, transforming interactions and work processes as technology advances. Emerging trends in robotics, such as AI and ML, soft robotics, and swarm robotics, can transform industries and improve efficiency. The future of robotics and automation promises safer workplaces, improved healthcare, and enhanced environmental sustainability. Society must adapt to this changing landscape, requiring continuous learning and upskilling to remain relevant in the workforce.

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Section: Soft Robotics and Bioinspired Designsmentioning

confidence: 99%

An overview of emerging trends in robotics and automation

Sutikno

2023

IJRA

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“…Recent developments have seen the integration of mechanical function in cardiac simulation, making it an even more potent tool for understanding cardiac function from a fundamental science standpoint as well as for designing clinical remedies. Because of the various kinematic movements of blood flow, cardiovascular modeling is constantly evolving [1][2][3][4]. The heart undergoes several activities that involve complicated interactions between viscous incompressible fluids and deformable objects [5,6].…”

Section: Introductionmentioning

confidence: 99%

Simplified Kinetic Model of Heart Pressure for Human Dynamical Blood Flow

Saktioto,

Defrianto,

Thoibah

et al. 2023

IJEEI

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The blood flow that carries various particles results in disturbed physical flow in the heart organ caused by speed, density, and pressure. This phenomenon is complicated resulting in a wide variety of medical problems. This research provides a mathematical technique and numerical experiment for a straightforward solution to cardiac blood flow to arteries. Finite element analysis (FEA) is used to study and construct mathematical models for human blood flow through arterial branches. Furthermore, FEA is used to simulate the steady two-dimensional flow of viscous fluids across various geometries. The results showed that the blood flow in the carotid artery branching is simulated after the velocity profiles obtained are plotted against the experimental design. The computational method's validity is evaluated by comparing the numerical experiment with the analytical results of various functions.

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