Very High Resolution
This system is the first to provide sense of touch beyond human resolution. This sensor system makes it possible for robots and other devices to have the sense of touch like humans…
… and beyond.
Human beings sense touch through 241 nerve endings per square centimeter, and transmit to the brain without loss. With former technologies, robots and other devices only achieved a sensor density in the order of tens. If the sensor density could be increased, the data transmission would become impossible, or impractical due to high costs.
This system, which is commented as “Certainly a Worthwhile Achievement” by NASA engineers and recognized by 90+ international patents, allows the sensor density to be increased to the order of millions per square centimeter, while making it possible to transmit this data to a computer simply and with low cost.
This system is the first to provide sense of touch beyond human resolution. This sensor system makes it possible for robots and other devices to have the sense of touch like humans…
… and beyond.
With the great resolution in X/Y axes, the sensor can feel the shape of the object.
Besides the great resolution in X/Y axes, the sensor can feel the shape of the object in Z axis.
The Sensor can sense even without touching, which enables it to be used for safety purposes. This feature is crucial at Cobots and industrial robots especially when they are working very close to humans.
The sensor can sense the forces smaller than 0.001 N (0.1 gram).
Show high resolution images and video.
Sensor can three dimensional scan objects*.
* Future Versions
The system can Project images and video.
Available number of simultaneous tactile sensing data is equal to the number of receptors individually, which can expand to tens of millions. (For example, on the other side, smart phones’ touch pads can process a total of 2 touch points at a time.) (gradual (Not only I/O)).
In addition to the 3 axes touch, pressure and pre-touch sensing, our system can sense temperature*.
*Future version
System is constructed of all bendable materials which give us the chance of covering non-uniform shaped mechanical systems.
System’s power consumption is very low.
As data is transferred by light, the system does not interfere with magnetic fields.
In former systems, When the sensor density is increased, the data transmission becomes impossible or impractical due to high costs. We can transfer over ten million sensor data to computer over only a single USB cable.
Where will our technology be used?
Will be covered to hands and bodies of Humanoid Robots.
Everywhere can be covered by our flexible touchscreen.
The samples can be sensed from earth remotely.
Sensor can built three hundred sixty degrees 3D map of surroundings simultaneously.
Mine sweeper and bomb disposal robots can work much more precisely.
Surgery robots will have tactile feedback and the success of the surgeries will rise dramatically.
Human beings sense touch through 241 nerve endings per square centimeter, and transmit to the brain without loss. With former technologies, robots and other devices only achieved a sensor density in the order of tens. If the sensor density could be increased, the data transmission would become impossible, or impractical due to high costs.
This system, which is commented as “Certainly a Worthwhile Achievement” by NASA engineers and recognized by 90+ international patents, allows the sensor density to be increased to the order of millions per square centimeter, while making it possible to transmit this data to a computer simply and with low cost.
This system is the first to provide sense of touch beyond human resolution. This sensor system makes it possible for robots and other devices to have the sense of touch like humans…
… and beyond.
With the great resolution in X/Y axes, the sensor can feel the shape of the object.
Besides the great resolution in X/Y axes, the sensor can feel the shape of the object in Z axis.
The Sensor can sense even without touching, which enables it to be used for safety purposes. This feature is crucial at Cobots and industrial robots especially when they are working very close to humans.
The sensor can sense the forces smaller than 0.001 N (0.1 gram).
Show high resolution images and video.
Sensor can three dimensional scan objects*.
* Future Versions
The system can Project images and video.
Available number of simultaneous tactile sensing data is equal to the number of receptors individually, which can expand to tens of millions. (For example, on the other side, smart phones’ touch pads can process a total of 2 touch points at a time.) (gradual (Not only I/O))
In addition to the 3 axes touch, pressure and pre-touch sensing, our system can sense temperature*.
*Future version
System is constructed of all bendable materials which give us the chance of covering non-uniform shaped mechanical systems.
System’s power consumption is very low.
As data is transferred by light, the system does not interfere with magnetic fields.
In former systems, When the sensor density is increased, the data transmission becomes impossible or impractical due to high costs. We can transfer over ten million sensor data to computer over only a single USB cable.
Where will our technology be used?
Will be covered to hands and bodies of Humanoid Robots.
Everywhere can be covered by our flexible touchscreen.
The samples can be sensed from earth remotely.
Sensor can built three hundred sixty degrees 3D map of surroundings simultaneously.
Mine sweeper and bomb disposal robots can work much more precisely.
Surgery robots will have tactile feedback and the success of the surgeries will rise dramatically.
