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Healthcare & Medical Applications
Transformative Innovation for Health
Healthcare and Medical Applications
In the realm of healthcare and medical technology, the current landscape is witnessing a transformative integration of AI aimed at improving patient outcomes, enhancing medical diagnostics, and streamlining healthcare processes. Robocist’s applications encompass a broad spectrum, from facilitating personal fitness and patient care to advancing surgical precision and medical imaging. Innovations such as exercise counting using physical pose estimation, live feedback for rehabilitation, and remote fall detection demonstrate Robocist’s commitment to proactive health management and patient safety. Furthermore, technologies enabling remote human body measurements and sonography enhancements reflect the drive towards personalized care and resource optimization. These advancements collectively represent a significant stride in the pursuit of excellence in healthcare delivery and patient-centric services. Below is an overview of related projects.
Project Showcase Robocist’s AI Perception Engine has been adapted to support healthcare and medical applications. Explore a variety of distinct projects below, each illustrating the intricate challenges we've overcome and implemented solutions, underscoring our dedication to superior performance. Reach out to learn how our expertise can support your technology innovation endeavors.

Tech Innovation
Medical AI App with MONAI-Framework
The project entailed the development of a cutting-edge technology utilizing the MONAI framework to enhance medical imaging research and clinical collaboration. Specifically, this technology focuses on tumor segmentation, streamlining the process from end to end with the aid of MONAI's Model Archive for Medical Imaging (MONAI MAPS). This innovation promises to significantly advance the accuracy and speed of medical diagnostics. The value lies in its potential to transform the landscape of medical imaging, offering a more streamlined, precise approach to identifying and analyzing tumors. Additional applications could include automated anomaly detection, predictive analytics for patient outcomes, and personalized treatment planning.
Kidney Robotic Surgery Segmentations
The project involved developing a custom semantic segmentation model tailored for kidney robotic surgery, enhancing the robot's precision in identifying organs and surgical tools. This technology is pivotal for ensuring no blood clots remain before suturing post-operation. The value lies in its potential to significantly reduce surgical complications and enhance patient outcomes. Additional applications could include improved accuracy in other robotic-assisted surgical procedures and real-time diagnostic imaging.
Sonography Femur Detection
This technology serves as an enhancement for low-end sonography machines, providing an automated femur detection capability. It integrates with existing equipment, capturing and analyzing sonography videos to identify the femur, sharing the pertinent details and frames via email. This innovation extends the functionality of cost-effective sonography devices, delaying the necessity for costly upgrades or replacements. It is particularly beneficial for global markets that predominantly operate with less advanced or pre-owned sonography machines. The value lies in its ability to bring advanced medical imaging features to budget-conscious healthcare providers, thereby improving patient care without significant investment. Beyond femur detection, the technology holds promise for the automated identification of various anatomical structures and could potentially interface with patient management systems, streamlining diagnostic processes and augmenting medical record keeping.
Remote Fall Detection and Predictive Analysis for Medical and Residential Settings
This technology, currently under development, is designed to enhance safety in medical and residential environments through advanced fall detection, predictive analytics, and root-cause review. It provides timely alerts to caregivers when a fall occurs, while also utilizing behavioral pattern analysis to predict and help prevent future incidents. Furthermore, the incident log records the fall, providing caregivers with insight into the possible underlying cause. This system is a significant step forward in preventive care, combining cutting-edge technology with the critical need to protect those at risk of falls, ensuring both patient security and caregiver reassurance. The value lies in its ability to offer immediate response coupled with predictive insights, thereby reducing the risk of injury, and enabling better care. Beyond its primary use, the technology has the potential to improve workplace safety, integrate with smart home infrastructure, and assist in sports coaching by preventing injury through movement pattern analysis.
Live Feedback for Medical Rehab Patients and Physical Therapy
This innovative technology enhances medical rehabilitation and physical therapy by providing patients with instantaneous feedback during their exercises. It employs advanced human body angle detection to ensure movements are executed correctly, offering immediate corrective suggestions to foster proper technique. This not only empowers patients to conduct exercises independently but also minimizes the need for continuous clinician supervision, leading to significant time and cost efficiencies. Post-session, clinicians can access detailed analytics to customize subsequent treatment plans. The value lies in enhancing patient autonomy while optimizing therapeutic oversight and resource allocation. Beyond its primary application, the technology holds promise for sports training enhancement and the improvement of workplace ergonomics.
Exercise Counting App Using Physical Pose Estimation
This technology employs advanced human body pose estimation to accurately count and analyze exercise movements, providing users with real-time feedback and corrective guidance. It includes a timer for static workouts and detailed analytics for monitoring fitness progression, ensuring exercises are performed with precision. This innovation has been developed for several companies such as Elo Labs. The value lies in its ability to enhance the quality and effectiveness of workouts through precision and personalized feedback. Beyond fitness tracking, this technology has potential applications in physical therapy, sports coaching, and ergonomic assessments in workplace environments.
Human Body Measurements for Health, Fitness, and Fashion
This innovative technology utilizes dual-image analysis (front and side) to accurately estimate 19 different body parameters, enhancing the customization of clothing for e-commerce platforms and enabling precise tracking of physical changes for fitness enthusiasts. The value lies in its ability to deliver personalized experiences across various industries, ensuring accuracy and customer satisfaction. The system's versatility extends to applications in healthcare for monitoring patient recovery, posture analysis for ergonomic assessments, integration with augmented reality for interactive fitness programs, and in virtual try-on services for retail.