Exhibitors

CYBERDYNE was established in June 2004 in Japan to solve various social problems that the super-aged Japanese society must face. Our business is to create an ideal future by researching, developing, and manufacturing innovative Cybernics systems, with a focus on improving medicine, welfare, daily life, and the workplace. Cybernics Technology can handle "Human" + "Cyber Physical space" in an integrated manner. 

Some of our flagship products include:
Medical HAL Lower Limb Type is a medical device designed to improve the patient's ambulatory function outside of the device upon completion of gait training with the technology. With the goal of leading the patient toward less dependence on mobility aids and caregivers, Medical HAL is used for the treatment of spinal cord injury, post stroke paresis, paraplegia due to progressive neuromuscular diseases, HTLV-1 related myelopathy, and hereditary spastic paraplegia.

HAL Lumbar Type is a device that could be applied for two roles. The device supports both caregiver and care-receivers. When its used by "caregiver" it reduces the stress applied on the lumbar region during care movement and reduces the risk of back injury. When its used by "care-receivers", it could help a person with weak legs to maintain and improve the person's body function. While it is being used in medical conditions for some countries, the device is not registered as a medical device yet.

Medical HAL Single Joint Type is a medical device that supports intensive rehabilitation of each joints by combining the main unit with the attachment suited for each joints. Using the product, the therapist could perform rehabilitation in various positions, such as lying, sitting and standing in accordance to physical conditions of the patient.

Cyvis, a small vital sensor. This sensor is designed to collect, analyze, and process various healthcare data such as cardiac activity, brain activity, body temperature, SpO2 (arterial blood oxygen saturation measured transcutaneously with a pulse oximeter), and activity level daily in hospitals, nursing homes, workplaces, and other places where people live, through a cloud system.

Acoustic X is capable of simultaneously obtaining information through light absorption and ultrasound. Obtained information can be displayed on the monitor of the device. By combining these two methodology, Acoustic X can display information which was thought to be difficult to display, such as capillary vessels and differences of oxygen saturation.