Tactile sensor
A tactile sensor is a device that measures information arising from physical interaction with its environment. Tactile sensors are generally modeled after the biological sense of cutaneous touch which is capable of detecting stimuli resulting from mechanical stimulation, temperature, and pain (although pain sensing is not common in artificial tactile sensors). Tactile sensors are used in robotics, computer hardware and security systems. A common application of tactile sensors is in touchscreen devices on mobile phones and computing.
Tactile sensors may be of different types including piezoresistive, piezoelectric, capacitive and elastoresistive sensors.[2]
Uses
Tactile sensors appear in everyday objects such as elevator buttons and lamps which dim or brighten by touching the base. There are also innumerable applications for tactile sensors of which most people are never aware.
Sensors that measure very small changes must have very high sensitivities. Sensors need to be designed to have a small effect on what is measured; making the sensor smaller often improves this and may introduce other advantages. Tactile sensors can be used to test the performance of all types of applications. For example, these sensors have been used in the manufacturing of automobiles (brakes, clutches, door seals, gasket), battery lamination, bolted joints, fuel cells etc.
Robots designed to interact with objects requiring handling involving precision, dexterity, or interaction with unusual objects, need sensory apparatus which is functionally equivalent to a human's tactile ability. Tactile sensors have been developed for use with robots. Tactile sensors can complement visual systems by providing added information when the robot begins to grip an object. At this time vision is no longer sufficient, as the mechanical properties of the object cannot be determined by vision alone. Determining weight, texture, stiffness, center of mass, coefficient of friction, and thermal conductivity require object interaction and some sort of tactile sensing.
Several classes of tactile sensors are used in robots:
Pressure Sensor Arrays
Pressure sensor arrays are large grids of tactels. A "tactel" is a ‘tactile element’. Each tactel is capable of detecting normal forces. Tactel-based sensors provide a high resolution ‘image’ of the contact surface. Alongside spatial resolution and force sensitivity, systems-integration questions such as wiring and signal routing are important.[3] Pressure sensor arrays are available in thin-film form. They are primarily used as analytical tools used in the manufacturing and R&D processes by engineers and technicians, and have been adapted for use in robots. Examples of such sensors available to consumers include arrays built from conductive rubber,[4] lead zirconate titanate (PZT), polyvinylidene fluoride(PVDF), PVDF-TrFE,[5] FET,[6] and metallic capacitive sensing elements.
Strain Gauge Rosettes
Strain gauges rosettes are constructed from multiple strain gauges, with each gauge detecting the force in a particular direction. When the information from each strain gauge is combined, the information allows determination of a pattern of forces or torques.[7]
Biologically Inspired Tactile Sensors
A variety of biologically inspired designs have been suggested.[8][9][10] Biologically inspired tactile sensors often incorporate more than one sensing strategy. For example, they might detect both the distribution of pressures, and the pattern of forces that would come from pressure sensor arrays and strain gauge rosettes, allowing two-point discrimination and force sensing, with human-like ability.
Advanced versions of biologically designed tactile sensors include vibration sensing which has been determined to be important for understanding interactions between the tactile sensor and objects where the sensor slides over the object. Such interactions are now understood to be important for human tool use and judging the texture of an object.[8] One such sensor combines force sensing, vibration sensing, and heat transfer sensing.[1]
DIY and Open-Hardware Tactile Sensors
Recently, a sophisticated tactile sensor has been made open-hardware, enabling enthusiasts and hobbyists to experiment with an otherwise expensive technology.[11] Furthermore, with the advent of cheap optical cameras, novel sensors have been proposed which can be built easily and cheaply with a 3D printer. [12]
See also
References
- 1 2 Syntouch technology
- ↑ Robotic Tactile Sensing - Technologies and System
- ↑ Tactile Sensing - From Humans to Humanoids
- ↑ A tactile sensor sheet using pressure conductive rubber with electrical-wires stitched method
- ↑ Towards Tactile Sensing System on Chip for Robotic Applications
- ↑ Piezoelectric oxide semiconductor field effect transistor touch sensing devices
- ↑ Data sheet for Schunk FT-Nano 43, a 6-axis force torque sensor
- 1 2 A robust micro-vibration sensor for biomimetic fingertips
- ↑ Development of a tactile sensor based on biologically inspired edge encoding
- ↑ A biologically inspired tactile sensor array utilizing phase-based computation
- ↑ TakkTile sensor plans
- ↑ DIY tactile sensor based on webcam