AtlanticCrossing Unveils Groundbreaking AI-Powered Assistive Exoskeleton Use Case:


AtlanticCrossing, a leading provider of AI consulting and strategy services, is thrilled to introduce a pioneering use case that has the potential to transform the world of assistive exoskeletons. AtlanticCrossing presents, an AI integration initiative designed to enhance the functionality, adaptability, and safety of assistive exoskeletons.

The Challenge: Assistive exoskeletons, designed to improve mobility and quality of life for individuals with physical challenges, have faced inherent challenges in providing a seamless user experience and real-time adaptability to users' movements and needs. To address these limitations, AtlanticCrossing initiated the inception of and has shortlisted Karmaa Labs as its strategic AI development partner.

The Integration: represents a transformative approach to assistive exoskeletons, leveraging cutting-edge AI technologies in the following ways:

1. Sensor Fusion: integrates data from a variety of sensors, including accelerometers, gyroscopes, and force sensors, to provide real-time awareness of the user's movements and environment. This sensory fusion ensures a more responsive and adaptive exoskeleton.

2. Machine Learning Control: Machine learning models are seamlessly integrated into the exoskeleton's control system. These models predict user intent and adjust the exoskeleton's movements and assistance levels accordingly, resulting in a more personalized and user-friendly experience.

3. User Profiling: employs AI systems to analyze user profiles, considering physical characteristics, movement patterns, and user preferences. This data-driven approach personalizes the exoskeleton's settings and gait algorithms, ensuring the most comfortable and effective support for each user.

4. Adaptive Assistance: The AI-powered exoskeleton adapts in real-time to changes in the user's gait, terrain, and needs, providing optimal support and assistance as the user moves, all while maintaining a seamless and natural walking experience.

5. Safety Features: includes AI algorithms that continuously monitor for potential safety concerns, such as balance issues or falls. These algorithms can intervene in real-time to prevent accidents, making the exoskeleton not only supportive but also highly secure.

Said Ritika Hiranandani, chief of AIR@ Team at AtlanticCrossing “The integration of into assistive exoskeletons promises to lead to significant advancements: Users will enjoy a more natural and comfortable walking experience with AI-driven adaptability, improving overall mobility and quality of life”

Increased Accessibility: The exoskeletons will become suitable for a broader range of users, from individuals with varying physical abilities to those with rehabilitation needs.

Enhanced Safety: With AI continuously monitoring for safety concerns and intervening when necessary, the risk of accidents and falls will be significantly reduced.

Competitive Edge: The exoskeleton manufacturing companies adopting will gain a competitive edge by offering state-of-the-art, adaptable solutions that cater to a diverse user base.

This AI integration use case,, is a testament to AtlanticCrossing's commitment to enhancing the functionality, adaptability, and safety of assistive exoskeletons. It is a shining example of how AI can transform lives and enrich user experiences while aligning with AtlanticCrossing's AI Roadmap-AIR@ framework.

For more information, please contact

About AtlanticCrossing
AtlanticCrossing is a dedicated provider of AI consulting and strategy services, committed to helping businesses harness the power of artificial intelligence to achieve their goals. With a team of experienced AI experts, AtlanticCrossing offers end-to-end AI solutions tailored to the unique needs of each client, through its AIR@ (AI Integration & Research) AI done Right initiative.