Job Specifications
About Us
SharkNinja is a global product design and technology company, with a diversified portfolio of 5-star rated lifestyle solutions that positively impact people’s lives in homes around the world. Powered by two trusted, global brands, Shark and Ninja, the company has a proven track record of bringing disruptive innovation to market, and developing one consumer product after another has allowed SharkNinja to enter multiple product categories, driving significant growth and market share gains. Headquartered in Needham, Massachusetts with more than 3,600+ associates, the company’s products are sold at key retailers, online and offline, and through distributors around the world.
Work Period: July 2026 to December 2026
Location & Schedule: This is a full-time, 40-hour-per-week position with 5 days per week onsite in Needham, MA. There is no relocation or housing assistance for this position.
Join the SharkNinja Early Edge Experience: Built for early career talent. Geared toward impact. Driven by speed. Whether you're in a co-op or internship, our early talent program is designed to provide valuable exposure to the industry and a fast-paced professional environment. You’ll dive into meaningful projects and tasks that sharpen your skills and deepen your knowledge. Along the way, you’ll benefit from professional development opportunities, community events, and connections that make your experience well-rounded and enriching. Your time with us will culminate in an opportunity to showcase your contributions and learnings to SharkNinja leaders because this is a program for those ready to shape what’s next — fast.
This role: As a Mechanical Engineering Co-op, Wearable and Biomedical Devices at SharkNinja, you will work alongside a world-class group of engineers developing next-generation wearable, biosensing, and medical device technologies within our Shark space. This role offers hands-on experience across the full product lifecycle, including prototyping, testing, data analysis, and refinement of devices that integrate sensors, embedded hardware, and user-centered design. You will contribute to the development of systems that measure and interpret physiological signals such as ECG, PPG, EMG, temperature, motion, and impedance, applying core concepts in biomechanics, signal processing, and control systems. This role provides hands-on exposure across the full product lifecycle, from early concept development and prototyping through testing, refinement, and validation. You will support the design and evaluation of sensor-enabled systems, contribute to data-driven engineering decisions, and collaborate across disciplines to deliver solutions that balance performance, usability, and reliability. If you are motivated by applying engineering fundamentals to real-world health and wellness challenges and want to help shape the future of how people interact with technology on and around the body, this could be your next role.
Here are some of the EXCITING things you’ll get to do:
Contribute to early concept development by supporting research, ideation, and exploration of new wearable and biomedical product opportunities
Apply knowledge of biomechanics, signal processing, or control systems to real-world engineering challenges
Support the collection, interpretation, and analysis of physiological and system-level data to inform design and performance decisions
Work with sensor-enabled systems and data acquisition platforms to help evaluate functionality and user experience
Use MATLAB and or Python to analyze data, visualize trends, and support the development of analytical tools and models
Participate in design discussions and technical reviews, considering principles of safety, usability, and reliability throughout development
Gain exposure to materials and components intended for skin-contact and body-worn applications, with an emphasis on user comfort and performance
Collaborate cross-functionally with engineers, designers, and product partners to align technical insights with user needs
Develop an understanding of the user journey and the role of data-driven design in creating intuitive, trustworthy health-focused products
Attributes & Skills
Education: Current student in a related bachelor's, master’s, or doctorate program, or has graduated from such a program within the past year
Coursework or project experience in biomechanics, signal processing, or control systems
Must be able to work a full-time, 40-hour-per-week schedule with 5 days per week onsite in Needham, MA
Familiarity with physiological signals (e.g., ECG, PPG, EMG, temperature, motion, impedance) and basic signal processing concepts
Working knowledge of MATLAB and/or Python for data analysis, visualization, and algorithm development
Strong understanding of mechanical engineering/physics fundamentals including thermodynamics, fluid mechanics, and mechanical design
Understanding of medical device design principles, including safety, usability, and r