An apparatus and a method for detecting an impact using a speaker mounted in a vehicle, the apparatus includes at least two or more speakers mounted on different locations in a vehicle and a processing device that receives an induction current output from each of the at least two or more speakers when an external impact occurs on the vehicle, determines a current level of the induction current, and determines at least one of an intensity level of the impact or an impact location of the external impact based on the current level.

A force sensing system for determining if a user input has occurred, the system comprising: an input channel, to receive an input from at least one force sensor; an activity detection stage, to monitor an activity level of the input from the at least one force sensor and, responsive to an activity level which may be indicative of a user input being reached, to generate an indication that an activity has occurred at the force sensor; and an event detection stage to receive said indication, and to determine if a user input has occurred based on the received input from the at least one force sensor.

A device for measuring forces or a weighing device includes at least one sensor, at least one force input device configured to elastically deform in relation to an external force acting on the device, and a casing coupled to the sensor and the force input device. The sensor is configured such that, when the force is applied to the device, the sensor detects the force in relation to the elastic deformation of the force input device, and the casing is configured to accommodate the sensor in the casing in at least two different positions.

A device for measuring forces or a weighing device includes at least one sensor, at least one force input device configured to elastically deform in relation to an external force acting on the device, and a casing coupled to the sensor and the force input device. The sensor is configured such that, when the force is applied to the device, the sensor detects the force in relation to the elastic deformation of the force input device, and the casing is configured to accommodate the sensor in the casing in at least two different positions.

A force sensor that quantitatively detects an external force. The force sensor comprises a base unit, a displacement unit displacing by an external force, a first displacement sensor pair including two sets of sensors detecting a relative displacement between the base unit and the displacement unit in a first direction, and a second displacement sensor pair including two sets of sensors detecting a relative displacement between the base unit and the displacement unit in a second direction. Among four quadrants divided by two straight lines along each of the first direction and the second direction wherein, the straight lines passing through a midpoint of the two sets of sensors composing the first displacement sensor pair, the two sets of sensors composing the second displacement sensor pair are respectively disposed in two quadrants in which the two sets of sensors composing the first displacement sensor pair are respectively disposed.

A force sensing system for determining if a user input has occurred, the system comprising: an input channel, to receive an input from at least one force sensor; an activity detection stage, to monitor an activity level of the input from the at least one force sensor and, responsive to an activity level which may be indicative of a user input being reached, to generate an indication that an activity has occurred at the force sensor; and an event detection stage to receive said indication, and to determine if a user input has occurred based on the received input from the at least one force sensor.

A pneumatic-based tactile sensor according to an exemplary embodiment of the present invention includes: a tactile sense transmitting pneumatic unit for generating pneumatic pressure by an external load applied to a first side; and a tactile sense receiving sensor unit for measuring the load by transforming a magnitude of pneumatic pressure of the tactile sense transmitting pneumatic unit into a displacement.

A force sensor that quantitatively detects an external force. The force sensor comprises a base unit, a displacement unit displacing by an external force, a first displacement sensor pair including two sets of sensors detecting a relative displacement between the base unit and the displacement unit in a first direction, and a second displacement sensor pair including two sets of sensors detecting a relative displacement between the base unit and the displacement unit in a second direction. Among four quadrants divided by two straight lines along each of the first direction and the second direction wherein, the straight lines passing through a midpoint of the two sets of sensors composing the first displacement sensor pair, the two sets of sensors composing the second displacement sensor pair are respectively disposed in two quadrants in which the two sets of sensors composing the first displacement sensor pair are respectively disposed.

A force sensor that quantitatively detects an external force. The force sensor comprises a base unit, a displacement unit displacing by an external force, a first displacement sensor pair including two sets of sensors detecting a relative displacement between the base unit and the displacement unit in a first direction, and a second displacement sensor pair including two sets of sensors detecting a relative displacement between the base unit and the displacement unit in a second direction. Among four quadrants divided by two straight lines along each of the first direction and the second direction wherein, the straight lines passing through a midpoint of the two sets of sensors composing the first displacement sensor pair, the two sets of sensors composing the second displacement sensor pair are respectively disposed in two quadrants in which the two sets of sensors composing the first displacement sensor pair are respectively disposed.

Aspects of this disclosure relate to force based on a profile of magnetically sensitive material in a container. One or more sensors can detect the profile of the magnetically sensitive material, where the profile is associated with a force applied to the container. The profile includes magnetically sensitive material concentrated in one or more particular areas within the container. Related systems and methods for force detection are disclosed.