A device menu controls connector for a process automation field device include a field device part and a removable knob assembly. The field device part includes one or more Hall effect sensors, and the knob assembly includes one or more magnets. When the knob assembly is attached to the field device part, the knob may be rotated clockwise or counter-clockwise, or may be pushed or pulled. The interaction of the magnets and Hall effect sensors allow the field device to sense the rotation and the pushing and pulling of the knob. The programming of the field device allows the device menu controls connector to simulate <Up>, <Down>, <Right>, <Left>, <Enter>, and <Esc> key presses of a user interface. A field device having such a device menu controls connector is also disclosed.

This presentation provides methods to track pedestrians heading angle using smart phone data. Tracking heading angle especially at or from stationary position is key for pedestrian safety, e.g., for smart cross system and pedestrian collision mitigation system. It provides pedestrian-to-vehicle (P2V) platform. It deploys smart phones or mobile devices, equipped with DSRC (Dedicated short range communication) support, to act as beacons for pedestrians: Phone can alert driver to pedestrian presence in path; Pedestrian Basic Safety Message (BSM) can aid awareness for vehicles; It can be used for bicycles, as well. It also provides pedestrian-to-infrastructure (P2I) platform. Smart phone, through DSRC/cellular, transmits pedestrian presence to crosswalks/signals: It enables advanced crosswalk lighting/warning scheme; It enables bundling of pedestrian presence to vehicles. In this presentation, we provide various examples and variations on these.

In one embodiment, a vehicle includes a steering wheel, one or more vehicle drive systems, one or more driving mode paddler shifters coupled to the steering wheel, an output device, and an electronic control unit. The electronic control unit is communicatively coupled to the one or more driving mode paddle shifters, the one or more vehicle drive systems, and the output device. The electronic control unit is configured to receive a drive mode shifting signal from the one or more driving mode paddle shifter indicative of a desire to change a driving mode of the vehicle, change one or more parameters of the one or more vehicle drive systems in order to change the driving mode in response to the driving mode shifting signal, and provide a notification related to the change in the driving mode with the output device.

Push button device for a motor vehicle, has: a mechanical and/or electric function controller with a first control state and a second control state; a push button element pressable from a disengaged state into a pressed state, wherein the function controller has the first control state when the push button element is in the disengaged state and the second control state when the push button element is in the pressed state, the push button element connected to the function controller by a first pivot arm mounted rotatably about a first axis of rotation and by a second pivot arm mounted rotatably about a different axis of rotation spaced apart from the first axis of rotation, wherein the first pivot arm and the second pivot arm are designed to be pivoted in an identical direction of rotation as a consequence of a movement of the push button element.

Push button device for a motor vehicle, has: a mechanical and/or electric function controller with a first control state and a second control state; a push button element pressable from a disengaged state into a pressed state, wherein the function controller has the first control state when the push button element is in the disengaged state and the second control state when the push button element is in the pressed state, the push button element connected to the function controller by a first pivot arm mounted rotatably about a first axis of rotation and by a second pivot arm mounted rotatably about a different axis of rotation spaced apart from the first axis of rotation, wherein the first pivot arm and the second pivot arm are designed to be pivoted in an identical direction of rotation as a consequence of a movement of the push button element.

The invention relates to an actuating element comprising corona illumination, having a handle (1), which can be moved linearly in a stationary housing (3) from a raised non-actuating position to a lowered actuating position by manually impacting on its horizontal actuating surface (2). Said actuating element further comprises a circumferential border (5) of the handle (1), which protrudes into the direction facing away from the actuating surface (2) and forms an annular gap (7) between the end thereof facing away from the actuating area (2) and a housing wall (6), which annular gap (7) leads radially outward from the housing interior (4) below the actuating area (2) to the housing exterior surrounding the handle in order to cause a linear movement of the handle (1). Said actuating element further comprises a light source (12) arranged in the housing interior (4), the light whereof can be guided via an annular optical waveguide (11) corresponding to the border (5) of the handle (1) to the annular gap (7) and through same radially outward to the outside of the housing wall (6). Said actuating element further comprises electrical and/or electronic components arranged in the housing interior (4). The annular optical waveguide (11) has an annular wall which extends in the direction of the linear movement of the handle (1) and by means of which the housing interior (4) comprising the light source (12) and the electrical and/or electronic components is separated from the end area of the annular gap (7) facing the housing interior (4), wherein a channel (18) is formed between the annular wall and the housing (3) surrounding the annular wall, which channel (18) opens outward at its bottom end and wherein the optical waveguide (11) and the annular wall are configured in one piece (30).

The invention relates to an actuating element comprising corona illumination, having a handle (1), which can be moved linearly in a stationary housing (3) from a raised non-actuating position to a lowered actuating position by manually impacting on its horizontal actuating surface (2). Said actuating element further comprises a circumferential border (5) of the handle (1), which protrudes into the direction facing away from the actuating surface (2) and forms an annular gap (7) between the end thereof facing away from the actuating area (2) and a housing wall (6), which annular gap (7) leads radially outward from the housing interior (4) below the actuating area (2) to the housing exterior surrounding the handle in order to cause a linear movement of the handle (1). Said actuating element further comprises a light source (12) arranged in the housing interior (4), the light whereof can be guided via an annular optical waveguide (11) corresponding to the border (5) of the handle (1) to the annular gap (7) and through same radially outward to the outside of the housing wall (6). Said actuating element further comprises electrical and/or electronic components arranged in the housing interior (4). The annular optical waveguide (11) has an annular wall which extends in the direction of the linear movement of the handle (1) and by means of which the housing interior (4) comprising the light source (12) and the electrical and/or electronic components is separated from the end area of the annular gap (7) facing the housing interior (4), wherein a channel (18) is formed between the annular wall and the housing (3) surrounding the annular wall, which channel (18) opens outward at its bottom end and wherein the optical waveguide (11) and the annular wall are configured in one piece (30).

The present inventive concept discloses a button which comprising a body, a lighting control unit and a cap. The body comprises a side wall and a base, wherein the side wall of the body is substantially disposed around and protrudes from the base to form a first accommodating space between the base and the side wall of the body; the lighting control unit is disposed in the first accommodating space, and the lighting control unit comprises a UV light-emitting element and a switch, wherein the switch is used for switching on/off the UV light-emitting element; and the cap comprises a side wall and a top, wherein the side wall of the cap is substantially disposed around and protrudes from the top to form a second accommodating space between the top and the side wall of the cap, and the top has a portion corresponding to a position irradiated by light beams of the UV light-emitting element is substantially made of a UV penetrable material, and wherein the cap separably covers at least one of the body or the lighting control unit.

The present inventive concept discloses a button which comprising a body, a lighting control unit and a cap. The body comprises a side wall and a base, wherein the side wall of the body is substantially disposed around and protrudes from the base to form a first accommodating space between the base and the side wall of the body; the lighting control unit is disposed in the first accommodating space, and the lighting control unit comprises a UV light-emitting element and a switch, wherein the switch is used for switching on/off the UV light-emitting element; and the cap comprises a side wall and a top, wherein the side wall of the cap is substantially disposed around and protrudes from the top to form a second accommodating space between the top and the side wall of the cap, and the top has a portion corresponding to a position irradiated by light beams of the UV light-emitting element is substantially made of a UV penetrable material, and wherein the cap separably covers at least one of the body or the lighting control unit.

A control lever device of an industrial vehicle includes a control lever that is tiltable forward and rearward relative to a vehicle body of the industrial vehicle and that includes a control knob, a switch button that is provided on the control knob and adapted to be pushable while the control lever is operated. The switch button has a movement axis indicating a movable direction of the switch button. The movement axis is inclined forward relative to a direction orthogonal to an extending direction of the control knob so that a pushing direction of the switch button is directed rearward from the direction orthogonal to the extending direction of the control knob.