Welcome to Brainlab.
Where Innovation Meets Technology. Powered by Artificial Technology.

1) PHYSICISTS, ELECTRICAL AND INDUSTRIAL ENGINEERS

 

We are seeking skilled and passionate individuals to join our team in the development of innovative self-thrusted electrical exoskeletons. This project aims to harness advanced engineering principles to design and fabricate exoskeletons capable of providing self-thrusting capabilities for industrial and self-care applications. The successful candidates will be responsible for designing, prototyping, and optimizing exoskeleton systems using 3D printing technology and electrical devices.


Key Responsibilities:

  • Collaborate with cross-functional teams to define requirements and specifications for self-thrusted electrical exoskeletons, considering industrial and self-care use cases.
  • Utilize principles of physics and engineering to design mechanical structures and electrical components for exoskeleton systems.
  • Employ computer-aided design (CAD) software to create detailed models and simulations of exoskeleton prototypes, ensuring structural integrity and ergonomic design.
  • Select appropriate materials and manufacturing processes, including 3D printing, to fabricate exoskeleton components with high precision and durability.
  • Integrate sensors, actuators, and control systems into exoskeleton designs to enable self-thrusting functionality and ensure user safety and comfort.
  • Conduct rigorous testing and evaluation of exoskeleton prototypes, analyzing performance metrics such as thrust efficiency, power consumption, and user experience.
  • Iterate on design improvements based on test results and stakeholder feedback, optimizing exoskeleton performance and usability.
  • Document all design iterations, testing procedures, and results in technical reports and documentation for internal and external stakeholders.


Requirements:

  • A Bachelor's, Master's, or Ph.D. degree in Physics, Electrical Engineering, Industrial Engineering, Mechanical Engineering, or related fields.
  • Scholarships also welcomed if very motivated on the matter
  • Strong background in mechanics, dynamics, and control systems, with a focus on electromechanical systems and robotics.
  • Proficiency in CAD software such as SolidWorks, AutoCAD, or Fusion 360 for 3D modeling and design.
  • Experience with additive manufacturing processes, particularly 3D printing, and familiarity with materials selection and fabrication techniques.
  • Knowledge of electrical systems design, including circuitry, sensors, actuators, and power management.
  • Previous experience in designing and prototyping electromechanical systems or wearable devices is highly desirable.
  • Excellent problem-solving skills and attention to detail, with a creative and innovative mindset.
  • Effective communication skills, with the ability to collaborate effectively with interdisciplinary teams and communicate technical concepts to non-technical stakeholders.


References:

  1. Asbeck, A. T., Dyer, R. J., Larusson, A. F., & Walsh, C. J. (2013). Biologically-inspired soft exosuits. In Wearable robotics (pp. 167-180). Academic Press.
  2. Kim, S., Laschi, C., & Trimmer, B. (2013). Soft robotics: a bioinspired evolution in robotics. Trends in biotechnology, 31(5), 287-294.
  3. Wang, Q., Yu, Z., Deng, Y., Tan, Z., Zheng, J., & Jin, H. (2019). Design and optimization of a novel self-powered and self-controlled lower-limb exoskeleton based on advanced architecture. IEEE Transactions on Industrial Informatics, 15(1), 127-138.
  4. Electroactive Polymers for Robotic Applications by Kwang J. Kim and Federico Carpi.


Join us in revolutionizing the field of wearable robotics and self-care technology. Apply now with your CV and cover letter detailing your relevant knowledge and experience. We look forward to having you on our team!



 
 
 
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