A foreign object detection apparatus using a mobile laser in a wireless power transfer (WPT) system may comprise a laser transmitting part installed on one side of an upper portion of a transmission pad to generate a laser; a laser receiving part installed on an opposite side to the one side, and receiving the laser generated by the laser transmitting part; and a laser moving part for moving the laser transmitting part and the laser receiving part along the one side or the opposite side of the transmission pad.

An access protection system comprises a first safety sensor, a second safety sensor, and an electronic control device that is in signal connection with the first and second safety sensors. The first and second safety sensors are laser scanners that each form a safety protected field and that each form a first detection protected field in operation and that are arranged such that the first detection protected fields do not overlap at least regionally. The electronic control device is configured to trigger a safety function on a penetration of an object into the safety protected field of the first and/or second safety sensors and to change the operating state of the access protection system when a penetration of the object is determined both into the first detection protected field of the first safety sensor and into the first detection protected field of the second safety sensor.

An access protection system comprises a first safety sensor, a second safety sensor, and an electronic control device that is in signal connection with the first and second safety sensors. The first and second safety sensors are laser scanners that each form a safety protected field and that each form a first detection protected field in operation and that are arranged such that the first detection protected fields do not overlap at least regionally. The electronic control device is configured to trigger a safety function on a penetration of an object into the safety protected field of the first and/or second safety sensors and to change the operating state of the access protection system when a penetration of the object is determined both into the first detection protected field of the first safety sensor and into the first detection protected field of the second safety sensor.

A mobile scanning inspection system, comprising a vehicle body and an inspection arm including a cross arm and a vertical arm, wherein a first inspection device and a second inspection device are provided on the cross arm; the first inspection device is on the side close to the vehicle body and it emits a first laser inspection plane parallel to the side plane of the vehicle body, and the length of the longest portion of the first laser inspection plane is longer than the length of the vehicle body; the second inspection device is provided on the side close to the vertical arm and it emits a second laser inspection plane parallel to the side plane of the vehicle body and the second laser inspection plane is centered on the vertical arm, and extends a first preset distance and a second preset distance forward and backward.

A mobile scanning inspection system, comprising a vehicle body and an inspection arm including a cross arm and a vertical arm, wherein a first inspection device and a second inspection device are provided on the cross arm; the first inspection device is on the side close to the vehicle body and it emits a first laser inspection plane parallel to the side plane of the vehicle body, and the length of the longest portion of the first laser inspection plane is longer than the length of the vehicle body; the second inspection device is provided on the side close to the vertical arm and it emits a second laser inspection plane parallel to the side plane of the vehicle body and the second laser inspection plane is centered on the vertical arm, and extends a first preset distance and a second preset distance forward and backward.

A safety laser scanner for securing the surroundings of at least one object has a first safety laser scanner with which a first defined reference target is associated and a second safety laser scanner with which a second defined reference target is associated. Each safety laser scanner includes: a light transmitter; a light deflection unit for a periodic deflection of the light into a scanning plane; a receiver for providing received signals in dependence on light remitted at articles present in the field of vision of the scanner; and an evaluation unit for evaluating the received signals with respect to the angle and the distance of the article and for providing a safety signal. Furthermore, the scanning planes of both scanners are aligned in a coplanar manner and the first scanner forms the second reference target and the second scanner forms the first reference target.

A safety laser scanner for securing the surroundings of at least one object has a first safety laser scanner with which a first defined reference target is associated and a second safety laser scanner with which a second defined reference target is associated. Each safety laser scanner includes: a light transmitter; a light deflection unit for a periodic deflection of the light into a scanning plane; a receiver for providing received signals in dependence on light remitted at articles present in the field of vision of the scanner; and an evaluation unit for evaluating the received signals with respect to the angle and the distance of the article and for providing a safety signal. Furthermore, the scanning planes of both scanners are aligned in a coplanar manner and the first scanner forms the second reference target and the second scanner forms the first reference target.

There is provided an object scanning apparatus. The object scanning apparatus may include a THz source emitting a THz beam; an optical system for directing the THz beam; a zone for inspecting objects wherein the optical beam interacts with the object; a motion device for changing the spatial or temporal interaction of the object and optical beam; at least one transducer, the at least one transducer including an imaging transducer for converting the optical beam energy after interaction with the object to an electronic image; and a processor for performing processing of the image for use in characterization of the object or its interior contents or composition.

There is provided an object scanning apparatus. The object scanning apparatus may include a THz source emitting a THz beam; an optical system for directing the THz beam; a zone for inspecting objects wherein the optical beam interacts with the object; a motion device for changing the spatial or temporal interaction of the object and optical beam; at least one transducer, the at least one transducer including an imaging transducer for converting the optical beam energy after interaction with the object to an electronic image; and a processor for performing processing of the image for use in characterization of the object or its interior contents or composition.

There is provided an object scanning apparatus. The object scanning apparatus may include a THz source emitting a THz beam; an optical system for directing the THz beam; a zone for inspecting objects wherein the optical beam interacts with the object; a motion device for changing the spatial or temporal interaction of the object and optical beam; at least one transducer, the at least one transducer including an imaging transducer for converting the optical beam energy after interaction with the object to an electronic image; and a processor for performing processing of the image for use in characterization of the object or its interior contents or composition.