NEXT-GEN TECHNOLOGIES
Shaping the Future with Acoustics
Shaping the Future with Acoustics
Shaping the Future with Acoustics
Our lab is advancing the frontier of science with pioneering technologies in biomedical devices, smart materials, and intelligent systems—reshaping the future through deep research and collaboration.
Improve your triathlon performance with personalized training plans guided by an experienced coach committed to your success.
NEXT-GEN TECHNOLOGIES
Shaping the Future with Acoustics
Shaping the Future with Acoustics
Our lab is advancing the frontier of science with pioneering technologies in biomedical devices, smart materials, and intelligent systems—reshaping the future through deep research and collaboration.
Improve your triathlon performance with personalized training plans guided by an experienced coach committed to your success.
Explore breakthrough technologies redefining the future of healthcare through innovation, precision, and purposeful design.
Explore breakthrough technologies redefining the future of healthcare through innovation, precision, and purposeful design.
Explore breakthrough technologies redefining the future of healthcare through innovation, precision, and purposeful design.
Ultrasound-Assisted MicroRobots for Ultrafast Thrombolysis
Ultrasound-Assisted MicroRobots for Ultrafast Thrombolysis
Ultrasound-Assisted MicroRobots for Ultrafast Thrombolysis
Ultrasound-Assisted MicroRobots for Ultrafast Thrombolysis
Myocardial Infarction (AMI) – Cardiovascular diseases are the leading global cause of death. Early diagnosis and timely treatment significantly improve survival and reduce long-term complications.
Myocardial Infarction (AMI) – Cardiovascular diseases are the leading global cause of death. Early diagnosis and timely treatment significantly improve survival and reduce long-term complications.
Myocardial Infarction (AMI) – Cardiovascular diseases are the leading global cause of death. Early diagnosis and timely treatment significantly improve survival and reduce long-term complications.
Myocardial Infarction (AMI) – Cardiovascular diseases are the leading global cause of death. Early diagnosis and timely treatment significantly improve survival and reduce long-term complications.
Increases chances of survival
Reduces risk of long-term complications
Improves recovery time and quality of life
Lowers overall healthcare costs through timely intervention
SonoTextiles – Smart Acoustic Fabrics
SonoTextiles – Smart Acoustic Fabrics
SonoTextiles – Smart Acoustic Fabrics
SonoTextiles brings the future of wearables with smart fabrics that detect pressure, touch, and motion in real time—perfect for rehab, gaming, and gesture control.
SonoTextiles brings the future of wearables with smart fabrics that detect pressure, touch, and motion in real time—perfect for rehab, gaming, and gesture control.
SonoTextiles brings the future of wearables with smart fabrics that detect pressure, touch, and motion in real time—perfect for rehab, gaming, and gesture control.
Real-time motion and touch detection
Seamless integration into clothing
Ideal for multiple applications (rehab, gaming, etc.)
High precision and responsiveness
Ultrasound Helmet for Preclinical Studies
SonoRobotics’ Ultrasound Helmet boosts accuracy and cuts costs in preclinical studies, offering a safer, consistent alternative to traditional neuromodulation.
Neuromodulation
Drug delivery across the blood-brain barrier
Functional brain mapping
Behavioural neuroscience
Ultrasound Helmet for Preclinical Studies
SonoRobotics’ Ultrasound Helmet boosts accuracy and cuts costs in preclinical studies, offering a safer, consistent alternative to traditional neuromodulation.
Neuromodulation
Drug delivery across the blood-brain barrier
Functional brain mapping
Behavioural neuroscience
Ultrasound Helmet for Preclinical Studies
SonoRobotics’ Ultrasound Helmet boosts accuracy and cuts costs in preclinical studies, offering a safer, consistent alternative to traditional neuromodulation.
Neuromodulation
Drug delivery across the blood-brain barrier
Functional brain mapping
Behavioural neuroscience
Ultrasound Helmet for Preclinical Studies
SonoRobotics’ Ultrasound Helmet boosts accuracy and cuts costs in preclinical studies, offering a safer, consistent alternative to traditional neuromodulation.
Neuromodulation
Drug delivery across the blood-brain barrier
Functional brain mapping
Behavioural neuroscience
OUR RESEARCH APPROACH
OUR RESEARCH APPROACH
OUR RESEARCH APPROACH
Turning Scientific Curiosity into Real-World Impact
Every great piece of content follows a thoughtful process. My specific approach matches every word with what you want to achieve.
OUR RESEARCH APPROACH
Turning Scientific Curiosity into Real-World Impact
Every great piece of content follows a thoughtful process. My specific approach matches every word with what you want to achieve.
1
Fundamental Research & Discovery
We begin with deep exploration into acoustic physics, biomedical engineering, and material sciences. This foundational research helps us understand how ultrasound interacts with biological tissues, fluids, and fabrics—guiding every concept we pursue.
1
Fundamental Research & Discovery
We begin with deep exploration into acoustic physics, biomedical engineering, and material sciences. This foundational research helps us understand how ultrasound interacts with biological tissues, fluids, and fabrics—guiding every concept we pursue.
2
Technology Prototyping & Lab Validation
Using precision instruments and simulation models, we develop early prototypes and conduct in-vitro experiments. Each device undergoes rigorous calibration and safety validation within our controlled lab environment to ensure scientific accuracy.
2
Technology Prototyping & Lab Validation
Using precision instruments and simulation models, we develop early prototypes and conduct in-vitro experiments. Each device undergoes rigorous calibration and safety validation within our controlled lab environment to ensure scientific accuracy.
3
Multidisciplinary Collaboration
Our lab brings together experts from robotics, textiles, neuroscience, and medical imaging. Through ongoing collaboration with hospitals, research institutions, and industry partners, we expand the scope and applicability of our technologies.
3
Multidisciplinary Collaboration
Our lab brings together experts from robotics, textiles, neuroscience, and medical imaging. Through ongoing collaboration with hospitals, research institutions, and industry partners, we expand the scope and applicability of our technologies.
4
Performance Trials
Each innovation undergoes structured experimental trials to assess its real-world functionality. Through detailed performance analysis and iterative refinement, we ensure our solutions meet the highest standards of precision, safety, and usability.
4
Performance Trials
Each innovation undergoes structured experimental trials to assess its real-world functionality. Through detailed performance analysis and iterative refinement, we ensure our solutions meet the highest standards of precision, safety, and usability.
From Lab to Literature
Published Works That Define Our Journey
Leading Innovation,
Driving Sono Robotics Forward
How microvascular obstruction impacts heart attack recovery
Evaluating advanced materials to improve safety, flexibility, and performance in next-gen micro-robotic medical applications.
The future of minimally invasive heart treatments.
An AI-driven framework enabling real-time decision-making and adaptive movement within complex cardiovascular structures.
Exploring the power of ultrasound in modern medicine.
A novel approach to enhancing clot removal precision using micro-scale robotic systems in blood flow environments.
How microvascular obstruction impacts heart attack recovery
Evaluating advanced materials to improve safety, flexibility, and performance in next-gen micro-robotic medical applications.
The future of minimally invasive heart treatments.
An AI-driven framework enabling real-time decision-making and adaptive movement within complex cardiovascular structures.
Exploring the power of ultrasound in modern medicine.
A novel approach to enhancing clot removal precision using micro-scale robotic systems in blood flow environments.
How microvascular obstruction impacts heart attack recovery
Evaluating advanced materials to improve safety, flexibility, and performance in next-gen micro-robotic medical applications.
The future of minimally invasive heart treatments.
An AI-driven framework enabling real-time decision-making and adaptive movement within complex cardiovascular structures.
Exploring the power of ultrasound in modern medicine.
A novel approach to enhancing clot removal precision using micro-scale robotic systems in blood flow environments.
How microvascular obstruction impacts heart attack recovery
Evaluating advanced materials to improve safety, flexibility, and performance in next-gen micro-robotic medical applications.
The future of minimally invasive heart treatments.
An AI-driven framework enabling real-time decision-making and adaptive movement within complex cardiovascular structures.
Exploring the power of ultrasound in modern medicine.
A novel approach to enhancing clot removal precision using micro-scale robotic systems in blood flow environments.
How microvascular obstruction impacts heart attack recovery
Evaluating advanced materials to improve safety, flexibility, and performance in next-gen micro-robotic medical applications.
The future of minimally invasive heart treatments.
An AI-driven framework enabling real-time decision-making and adaptive movement within complex cardiovascular structures.
Exploring the power of ultrasound in modern medicine.
A novel approach to enhancing clot removal precision using micro-scale robotic systems in blood flow environments.