SPECIFICATIONS OF INTRINSICALLY ACTUATED CYBERHAND
APPLICATIONS OF CYBERHAND
Humanity has long relied on dedicated graspers in industries and various applications, each designed for specific tasks. The introduction of Vishwa CYBERHAND highly dexterous graspers modeled after the human hand anatomy is revolutionary, as a single system can handle diverse objects without the need for task-specific tool changes. These advanced robotic hands, like the Vishwa CYBERHAND , inherently adapt to the shape of objects, automatically managing grip force and other intricate aspects of prehension. Inspired by the Homo sapiens sapiens hand—a product of over 70 million years of evolution—the CYBERHAND boasts features such as an opposable thumb, unparalleled among primates, the ability to seamlessly switch between precision and power grips, and shorter phalanges enabling higher torque at the metacarpophalangeal joints. The human hand is nature’s masterpiece, capable of tasks ranging from the high-speed finesse of a pianist to the brute strength of a sailor hauling ropes. The CYBERHAND brings this very versatility to your industrial floor and variety of other applications, offering increased productivity, reduced costs, compact size, lightweight design, and impressive power. Experience the future of dexterous robotics—try the Vishwa CYBERHAND today!
CURRENTLY VISHWA CYBERNETIC HANDS ARE USED IN MANY APPLICATIONS LIKE:
- Assembly line tasks, such as electronics assembly and product packaging.
- Precision tasks in automotive and aerospace industries.
- Surgical robots equipped with dexterous hands for minimally invasive procedures.
- Prosthetic hands for amputees, offering fine motor control and sensory feedback.
- Geriatric elderly care, nursing.
- Mental health services, nursing and care for mentally disabled children.
- Robotics research in manipulation, grasping, and AI-driven autonomous systems.
- Human-robot interaction studies, including assistive technology.
- Service robots in hospitality and retail for tasks like serving food or delivering packages.
- Personal assistants for elderly care, helping with daily tasks such as feeding or dressing.
- Welcome Reception Humanoid and Meet & Greet Concierge services
- Unmanned sales and retail industries such as gas station counters, convenience stores, grocery stores, shopping malls etc.
- Building services, porters, bellhops etc.
- Explosive ordnance disposal (EOD) robots with manipulative capabilities.
- Surveillance and reconnaissance robots handling equipment in hazardous zones.
FUTURE USES OF VISHWA CYBERNETIC HANDS:
- Fully autonomous surgery with robotic hands using AI-guided precision.
- Bionic hands with enhanced tactile and proprioceptive feedback.
- Robotic astronauts with dexterous hands performing maintenance in space.
- Extraterrestrial mining and construction using robotic manipulators.
Robots navigating dangerous environments, removing debris, and providing emergency aid.
- Enhancing human capabilities through robotic gloves for heavy lifting or delicate tasks.
- Human-machine integration in space suits or military exoskeletons.
- Performance robots playing musical instruments or creating art.
- Interactive robots in virtual reality and gaming.
- Factories staffed entirely by robots with human-like dexterity, enabling full automation.
- Small-scale craft production, such as 3D-printed objects assembled by robotic hands.
- Smart home assistants with hands capable of cooking, cleaning, and household maintenance.
- Care robots for personalized home healthcare.
- Human-like companions providing social interaction and emotional support.
- Educational robots assisting in learning environments with physical demonstration capabilities.
DEEP SEA ROBOTIC HANDS INVENTED BY BHARGAV GAJJAR (VISHWA ROBOTICS)
Vishwa Robotics’ extrinsic deep-sea, rugged, robotic hand technology, designed with high marine grade durability, fine motor control, and adaptability, represents a pioneering leap in underwater robotics, enabling advanced mission capabilities that extend human reach into the ocean’s depths. Our robotic hand research has been funded by Office of Naval Research (ONR) and been prominently featured in the Navy Fleet Week in Times Square and leading media outlets such as National Geographic, Popular Science, and Scientific American, highlighting its groundbreaking innovations and real-world applications.
- Handling fragile marine samples and conducting underwater scientific research.
- Operating specialized tools in deep-sea laboratories.
- Performing complex repair tasks on submerged oil rigs, pipelines, and cables.
- Autonomous underwater vehicle (AUV) support for infrastructure inspection.
- Precision manipulation of objects in deep-sea recovery missions.
- Securing and lifting sunken equipment or cargo.
Assisting in building underwater habitats, subsea modules, and research stations.
- Underwater mine detection and neutralization.
- Specialized reconnaissance and surveillance missions.
- Collecting environmental samples for pollution monitoring.
- Managing delicate ecosystems with minimal environmental disruption.
- Supporting escape procedures from disabled submarines in extreme conditions.
- Providing life-saving tools for submarine rescue missions.
