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Research Scientist/Research Associate (Data Scientist/Biomechanics/Human Movements) - Job Opportunity at Nanyang Technological University

Singapore, Singapore
Full-time
Mid-level
Posted: August 15, 2025
On-site
SGD 55,000 - 75,000 per year for Research Associate level, SGD 75,000 - 95,000 per year for Research Scientist level. Singapore's competitive research sector, combined with NTU's prestigious status and the specialized nature of biomechanics research, typically commands salaries at the higher end of academic research ranges.

Key Responsibilities

Lead cutting-edge research initiatives in rehabilitation science with focus on human movement analysis, directly contributing to breakthrough discoveries that will advance clinical treatment protocols for neurological and musculoskeletal conditions
Architect and develop sophisticated user interfaces for markerless motion capture systems, creating technology solutions that bridge the gap between complex biomechanical data and clinical application
Execute advanced data processing and analysis of movement data using state-of-the-art methodologies, transforming raw motion capture information into actionable clinical insights that inform patient treatment strategies
Establish and maintain strategic partnerships with clinical professionals from leading healthcare institutions, serving as the technical liaison to translate research requirements into implementable solutions
Drive publication of high-impact research findings in peer-reviewed journals, enhancing the institution's academic reputation and contributing to the global knowledge base in rehabilitation science

Requirements

Education

PhD/Master, or prior degree in biomechanics, data science, computer science, engineering or related fields

Experience

Not specified

Required Skills

Knowledge of statistics and machine learning models Proficiency in coding using Python Knowledge of biomechanics and computer vision is a plus Experience in biomechanics software (e.g., Visual3D) is a plus Backend development (e.g., Flask, Quart) is a plus Front-end development (e.g., HTML, JavaScript) is a plus Cloud platforms experience is a plus Good communication and report-writing skills Possess dedication and highly committed to research and work
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Sauge AI Market Intelligence

Industry Trends

The rehabilitation technology sector is experiencing unprecedented growth driven by aging populations globally and increasing prevalence of chronic conditions requiring movement therapy. Singapore's position as a regional healthcare hub is attracting significant investment in medical technology research, particularly in areas combining AI and biomechanics. Markerless motion capture technology represents the next frontier in clinical movement analysis, moving away from traditional marker-based systems toward more accessible and patient-friendly solutions. This technological shift is creating substantial demand for professionals who can bridge biomechanics expertise with advanced computer vision and machine learning capabilities. Healthcare digitization initiatives across Asia-Pacific are prioritizing data-driven treatment approaches, with movement analysis becoming increasingly integrated into standard clinical protocols. Research institutions are competing to develop the next generation of rehabilitation technologies that can be deployed at scale.

Role Significance

Typically part of a multidisciplinary team of 8-15 researchers including biomechanics specialists, data scientists, clinical researchers, and software developers. The role likely involves leading specific technical workstreams while collaborating across disciplines.
This role represents a mid-to-senior research position with significant autonomy and impact. The dual Research Scientist/Research Associate designation indicates flexibility based on candidate qualifications, but both levels involve substantial independent research responsibility and clinical partnership management.

Key Projects

Development of AI-powered movement analysis platforms for neurological rehabilitation Clinical validation studies of markerless motion capture systems in hospital settings Creation of predictive models for patient recovery trajectories based on movement data Design of user-friendly interfaces for clinicians to interpret complex biomechanical data

Success Factors

Technical versatility combining deep biomechanics knowledge with advanced programming skills and machine learning expertise Clinical translation ability to convert complex research findings into practical applications that healthcare professionals can implement Cross-functional collaboration skills to work effectively with both technical teams and clinical partners Publication and communication excellence to disseminate research findings and secure future funding Adaptability to rapidly evolving technology landscape in both AI/ML and motion capture domains

Market Demand

High demand with limited supply. The intersection of biomechanics, data science, and clinical application represents a highly specialized skill set that few professionals possess. Singapore's push to become a leading medical technology hub is creating numerous opportunities in this exact domain.

Important Skills

Critical Skills

Python proficiency is essential as it serves as the primary language for data analysis, machine learning implementation, and integration with motion capture systems. The rehabilitation research field increasingly relies on Python's extensive libraries for biomechanical analysis and statistical modeling. Statistics and machine learning knowledge forms the foundation for extracting meaningful insights from complex movement data and developing predictive models for patient outcomes. This expertise directly determines the clinical value and publishability of research findings. Communication skills are critical for translating technical findings into clinically actionable insights and maintaining productive relationships with healthcare partners who may lack technical backgrounds.

Beneficial Skills

Biomechanics software experience with tools like Visual3D provides immediate productivity advantages and deeper understanding of clinical workflow requirements. Full-stack development capabilities enable creation of comprehensive research tools and clinical interfaces, significantly enhancing research impact and commercial potential. Cloud platform expertise becomes increasingly valuable as healthcare data processing moves toward distributed computing environments and compliance with medical data regulations.

Unique Aspects

Rare opportunity to work within a tripartite research structure combining university, hospital, and government research agency resources
Direct access to clinical data and patient populations through partnerships with major Singapore hospitals
Focus on markerless motion capture technology positions the role at the forefront of emerging rehabilitation technology
Singapore's strategic location and government support for healthcare innovation provide exceptional funding and collaboration opportunities

Career Growth

3-5 years to senior research scientist, 5-8 years to principal investigator or industry leadership roles, depending on publication record and research impact

Potential Next Roles

Senior Research Scientist leading larger research programs Principal Investigator managing multi-million dollar research grants Clinical Technology Director at healthcare institutions Chief Technology Officer at healthcare technology startups University faculty positions with tenure track

Company Overview

Nanyang Technological University

Nanyang Technological University ranks among Asia's top universities and has established itself as a global leader in engineering and technology research. The Rehabilitation Research Institute of Singapore represents a unique tripartite collaboration between academic excellence (NTU), clinical expertise (National Healthcare Group), and research funding (A*STAR), creating an unparalleled environment for translational research.

NTU consistently ranks in global top 15 for engineering and technology, with particular strength in biomedical engineering and computer science. The university's strategic partnerships with Singapore's healthcare system provide direct pathways for research translation, offering advantages over traditional academic institutions.
Singapore serves as the research and development hub for Southeast Asia's healthcare technology sector. NTU's location provides access to diverse patient populations, advanced clinical facilities, and substantial government funding for medical technology innovation.
Academic research environment with strong emphasis on practical application and clinical translation. The tripartite structure creates a unique culture blending academic rigor with clinical urgency and commercial viability considerations.
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