A medical device includes a shaft comprising a proximal end portion and a distal end portion. A beam has a proximal end portion, a distal end portion, and a middle portion, and one or more strain sensors are on the middle portion. The proximal end portion of the beam is matingly coupled to the distal end portion of the shaft to form an interface. The beam comprises a discontinuity between the interface and the middle portion of the beam. In some embodiments, the medical device includes a link and the distal end portion of the beam is matingly coupled to the link to form a second interface. A second discontinuity is between the second interface and the middle portion of the beam. In some embodiments, an anchor is coupled to the shaft and the proximal end portion of the beam is matingly coupled to the anchor.

A sensor apparatus for footwear includes at least one pair of light sources and at least one pair of light receivers, each light receiver being positioned and configured to receive light emitted from a respective one of the light sources. A pair of movable curtains functions to adjust the amount of light received by the pair of light receivers. The curtains are movable conjointly such that the amount of light received by one of the light receivers is inversely proportional to the amount of light received by the other light receiver. (FIG. 1B).

A tactile sensor including a camera positioned to capture images of marks. An elastically deformable skin including an outer surface having attributes and an undersurface having pins, ridges, or both. Each undersurface pin or ridge includes a mark. A processor detects displacement of the marks in captured images and compares the displaced positions of the marks in the captured images to stored sets of prelearned positions of marks, based on a distance function, to determine a quality of match value for each set of the prelearned positions of marks. A best quality matched prelearned pattern of forces is determined using a user selected function, to calculate a best matching set of the prelearned positions of marks. Identify a pattern of forces acting on the elastically deformable skin based on the determined best matched prelearned pattern of forces.

An optical sensor according to an embodiment of the present disclosure includes a light emitting substrate and a circuit board. The light emitting substrate includes a light emitting device. The circuit board is provided at a position opposing the light emitting device. The circuit board includes a light transmitting section and one or multiple light receiving devices. The light transmitting section transmits light of the light emitting device. The one or multiple light receiving devices receive light reflected by a reflective layer of the light of the light emitting device exiting through the light transmitting section. For example, the one or multiple light receiving devices are formed on a first major surface of the circuit board. For example, the light emitting substrate is disposed at a position opposing a second major surface, of the circuit board, on an opposite side to the first major surface, and is stacked on the circuit board with a first bump interposed therebetween.

An electronic device may have an optical touch sensor that is insensitive to the presence of moisture. The display may present images through a display cover layer. A light source may illuminate an external object such as a user's finger when the object contacts a surface of the display cover layer. This creates scattered light that may be detected by an array of light sensors. A metasurface grating may be used to couple light from the light source into the display cover layer at an angle such that total internal reflection within the display cover layer is sustained across the display cover layer even when the display cover layer is immersed in water or otherwise exposed to moisture. Additional metasurface gratings may be formed on the display cover layer to redirect light propagating within the display cover layer away from edges that might otherwise defeat total internal reflection.

A sensor device includes: a light-emitting section that outputs light to a first mirror or a second mirror, the second mirror facing the first mirror and being configured to change an orientation with respect to the first mirror; and a light-receiving section that receives reflection light, reflected from the first mirror and the second mirror, of the light outputted from the light-emitting section.

A sensor device includes: a light-emitting section that outputs light to a first mirror or a second mirror, the second mirror facing the first mirror and being configured to change an orientation with respect to the first mirror; and a light-receiving section that receives reflection light, reflected from the first mirror and the second mirror, of the light outputted from the light-emitting section.

A force sensor includes a strain body including a base portion, a displacement portion configured to make a displacement relative to the base portion under external force, and an elastic connection portion configured to elastically connect the base portion and the displacement portion, a board including a detection unit configured to detect the displacement of the displacement portion relative to the base portion in a first direction, and an interposed member interposed between the strain body and the board, the interposed member including an extending portion extending in a second direction intersecting a surface of the board and the first direction.

The invention relates to an electronic handle (1) or a walking assistance apparatus equipped with such a handle, said electronic handle being arranged so as to allow the measurement of at least one component of a force applied thereto, said handle (1) comprising a central part (10) and an outer jacket (20), said electronic handle (1) being characterized in that it comprises a first photoelectric cell (30) and a first shutter element (40), arranged so that a force applied to the electronic handle (1) is capable of causing a change in the amount of photons received by a first receiver (32), said change being proportional to a first component of the force applied to the electronic handle (1).

The invention relates to an electronic handle (1) or a walking assistance apparatus equipped with such a handle, said electronic handle being arranged so as to allow the measurement of at least one component of a force applied thereto, said handle (1) comprising a central part (10) and an outer jacket (20), said electronic handle (1) being characterized in that it comprises a first photoelectric cell (30) and a first shutter element (40), arranged so that a force applied to the electronic handle (1) is capable of causing a change in the amount of photons received by a first receiver (32), said change being proportional to a first component of the force applied to the electronic handle (1).