Systems and methods are provided for influential control over a driver's hand(s) that grip a vehicle's steering wheel. Upon issuing an autonomous control signal to control motive operation of the vehicle, an autonomous control system of the vehicle may further reinforce the application of the autonomous control signal by inducing the driver's hand(s) to grip/increase grip strength on the vehicle's steering wheel or by releasing the grip/decreasing grip strength on the vehicle's steering wheel. Moreover, the increasing/decreasing of the driver's grip may alternatively, or in addition to the reinforcement aspect, induce augmentative or intervening action(s)/behavior(s) by the driver.

The invention discloses a smart glove, which relates to a smart glove that can be used indoors and outdoors. It includes a glove body. The glove body includes a wrist, a palm, and a finger. On the back of the wrist, there are a switch button, a charging interface, and a control. The control box contains a rechargeable lithium battery and a controller, and the charging interface is electrically connected to the lithium battery in the control box; an LED display is installed on the back of the palm, and the inside of the LED display is electrically connected to the driver of the LED display; The back finger part can wrap all fingers or part of the fingers to protect the skin; on the one hand, the present invention can serve as a warning when the user is walking or riding, improving travel safety, and on the other hand. Play a role in display and publicity.

A selector configured to provide tactile feedback to the user. The selector can be incorporated into the fingertip of a glove, or many other suitable locations. Different size selectors can be provided for different application. Arrays of multiple selectors can also be provided. An embodiment of the inventive device includes a central plunger lying behind a conductive covering. A tactile surface is provided on the rear of the plunger. A compressive element is positioned to urge the plunger toward the conductive covering. When a user presses the selector against a touchscreen, the plunger is pushed away from the touchscreen and the tactile surface on the plunger presses against the user. The pressing of the tactile surface provides feedback to the user.

Metal nanoparticle agglomerates may aid in promoting infection control over an extended period of time when adhered to a touch or contact surface of personal protective equipment, such as gloves or garments. Gloves may comprise a body having one or more touch surfaces when worn, and metal nanoparticle agglomerates adhered to a material defining the one or more touch surfaces. The gloves may further comprise an identifying tag associated with the material. The identifying tag may be electronically identifiable, which may track, for example, how long the gloves have been in use, whether the gloves have been worn, conditions under which the gloves have been worn, and/or locations where the gloves have been worn. Other personal protective equipment and garments may similarly comprise metal nanoparticle agglomerates adhered to at least a portion of a material shaped for wear, optionally including an identifying tag associated with the material.

A makeup removing glove assembly includes a glove that can be worn on a user's hand. The glove is comprised of a deformable material such that the glove can scrub the user’s face without causing discomfort for the user. The glove is comprised of a fluid permeable material to absorb a cleaning fluid for enhancing cleaning the user’s face. A plurality of scrubbers is each coupled to the glove to enhance scrubbing makeup from the user’s face. Furthermore, the plurality of scrubbers is distributed over an entirety of the glove to facilitate the glove to be worn on either the right hand or the left hand for scrubbing the user’s face.

A soft sensor includes an elastic sheet, which includes a first elastic layer and a second elastic layer facing each other, and a sensor unit formed by printing a predetermined conductive liquid metal between the first elastic layer and the second elastic layer. A hand-wearable device may include at least one soft sensor, wherein the hand-wearable device has a shape corresponding to at least a portion of a shape of a hand, and the soft sensor is located at a position corresponding to at least some joints of the hand.

A grasp assist system includes a glove having a glove palm and fingers, with the glove worn on a user's hand. A sensor measures flexion of the glove fingers, and thus a change of position and/or attitude of the fingers is determined. Finger saddles at least partially surround a phalange of a respective one of the user's fingers. The system uses one or more tendon actuators to pull on flexible tendons. Each tendon connects to a respective finger saddle. A controller is in communication with the actuators and sensor(s). The glove may use feedback from optional contact sensors to adjust tension, and may have a built-in restorative force. In executing a control method, the controller selectively applies tension to the tendons in response to finger flexion, via the tendon actuators, at a level sufficient for moving the user's fingers when the user executes a hand maneuver.

Various embodiments described herein illustrate a glove that includes an anterior portion and a posterior portion. The anterior portion is knitted seamlessly with the posterior portion to define a metacarpal region and a plurality of finger regions extending out from the metacarpal region. A first conductive pad is knitted on the anterior portion of the glove. The first conductive pad is knitted on a distal end portion of a first finger region. A second conductive pad knitted on the posterior portion of the glove. Further, the second conductive pad is knitted on a second finger region. An electronic device is removably attached to the posterior portion and is in electrical communication with the first conductive pad and the second conductive pad. The electronic device is triggered in an instance in which the first conductive pad contacts the second conductive pad.

A glove includes a main body that defines an interior space that is operable to receive at least a portion of a hand of the wearer. The glove includes a palm area with upper, lower, interior, and anterior limits. A mirror is provided on the palm area of the glove.

An electronic garment with a textile element, in particular a glove, a hand cover, a gauntlet or the like, with a first hook-and-loop fastener member firmly connected to the textile element and with an electronic unit comprising a reading unit for reading a code, wherein the electronic unit comprises a trigger that is electrically connected to the reading unit via an electric line, wherein the reading unit for reading the code starts upon actuation of the trigger, wherein the electronic unit comprises a second hook-and-loop fastener part, wherein, in a working position, a hook strip is firmly connected to a loop strip and thus, the electronic unit is firmly connected to the textile element, and wherein, in a pause position, the hook strip is detached from the loop strip and thus, the electronic unit is separated from the textile element.