Our Research &
Development
The R&D Wing plays a crucial role in identifying areas where research evidence can make the most difference, ensuring that existing research facilities are used optimally, and facilitating quality research and consultancy in novel areas. Olusium is interested in a wide range of research areas, including artificial bio-organ development, fuel cell technology, quantum computing, digital pathology, and also has a focus on healthcare-related research, including early-stage disease diagnosis, cancer treatment, and drug development.
Functional Researches
Olusium's current functional researches focuses on cutting-edge technologies to provide innovative solutions for various fields of health. Among their areas of functional research are Minimally-Invasive Medical Diagnosis (MIMD), Health-Informatics, and Wireless Body Sensor. Minimally-Invasive Medical Diagnosis (MIMD) is a field of research that aims to develop technologies for diagnosing diseases or medical conditions without the need for invasive procedures. Olusium is committed to developing innovative solutions in MIMD that can significantly improve patient care and outcomes. Health-Informatics is another area of functional research for Olusium. This field is concerned with the use of information technology to improve healthcare outcomes. Olusium is developing cutting-edge health informatics solutions that can help healthcare providers streamline their operations, improve patient care, and reduce costs. Wireless Body Sensor is a field of research that focuses on developing wireless technologies that can monitor and transmit data about various body functions. Olusium is developing innovative wireless body sensor solutions that can help improve patient care and outcomes, as well as advance research in various medical fields.
Minimally-Invasive Medical Diagnosis (MIMD)
HEALTH CARE TECHNOLOGIES
The capability of this technology in early-stage cancer detection is remarkable. It has the potential to detect cancer in patients long before any symptoms appear. This means that doctors can begin treatment when the cancer is still small and confined to a specific area, increasing the chances of successful treatment and reducing the need for more invasive treatments, such as surgery or radiation therapy. The significance of early-stage cancer diagnosis cannot be overstated.
Health-Informatics
HEALTH CARE TECHNOLOGIES
Health informatics plays a significant role in disease diagnosis and progression. It provides tools and techniques for accurate diagnosis and monitoring of diseases, leading to improved outcomes for patients. One such tool is the use of predictive modeling, which uses patient data to predict disease progression and identify the most effective treatment strategies.
Wireless Body Sensor
HEALTH CARE TECHNOLOGIES
The wireless body area sensor system that has revolutionized the way we monitor and track our health. This technology has the potential to transform the medical industry and provide doctors with invaluable information about the health of their patients in real-time. The wireless body area sensor system consists of a single sensor fixed in the peripheral system that monitors wave characteristic patterns on the power delivered through induction.
Active Researches
In addition to providing cutting-edge technology and expertise, Olusium also conducts research and feasibility studies on emerging technologies. The team at Olusium stays at the forefront of technology trends and is constantly exploring new possibilities. Through research and feasibility studies, Olusium evaluates the potential of emerging technologies and identifies opportunities for innovation. This allows the team to develop new solutions and services that are tailored to the evolving needs.
Federated learning is a decentralized approach to machine learning where data is collected from multiple sources without being centrally stored. This approach enables machine learning models to be trained on large, diverse data sets while maintaining data privacy.
Neuromorphic computing is a type of computing that mimics the structure and function of the human brain. This technology has the potential to revolutionize computing by enabling computers to learn and adapt like humans. We work on the the BCI and its hardware integration also we plan to introduce a Neuromorphic architeture for AI ensemble model.
Digital pathology is a type of pathology that uses digital images instead of traditional glass slides to diagnose diseases. This technology has the potential to improve accuracy, speed, and efficiency in disease diagnosis.
Data science is the application of statistical and computational methods to extract knowledge and insights from data. This technology has the potential to revolutionize decision-making in all fields, from business to healthcare.
Cancer suppressor synthesis is a research area focused on developing new treatments and therapies for cancer. The aim is to develop cancer-fighting drugs that can target cancer cells while leaving healthy cells intact. Researchers are working to identify the specific proteins and genes involved in cancer development and growth, and then use this information to design drugs that can inhibit or even reverse the effects of these proteins and genes. The goal of this research is to develop new and effective treatments that can help to cure cancer or at least slow its progression.