A driver assistance system enables brake and accelerator operation by an operation bar in a manner close to a sense of a driver of a vehicle, regardless of the degree of operation of the operation bar. Embodiments include an operation bar extending downward toward a vehicle floor panel from a manual operation area where a seated driver manually operates the operation bar, and whose lower portion is supported in a slidingly displaceable manner along an axial direction in a front-down, rear-up tilted state. The operation bar includes a brake actuation section, below the manual operation area, that actuates a brake mechanism by sliding displacement of the operation bar in a front-down direction; and an accelerator actuation section that actuates an acceleration mechanism by sliding displacement of the operation bar in a rear-up direction that is a reverse direction on the same axis from the sliding displacement in the front-down direction.

An acceleration and braking mechanism kit autonomously controls a vehicle brake pedal and a vehicle accelerator pedal. The kit includes a support bracket and bell crank supported on the support bracket for connection with an acceleration pedal or a brake pedal of the vehicle. An actuator is connected to the bell crank for moving the bell crank. A first base bracket is configured to mount to a first vehicle. A second base bracket is configured to mount to a second vehicle. The first base bracket and the second base bracket each include a mounting feature. The support bracket includes a mounting base alternately engageable with the mounting feature of the first base bracket and the mounting feature of the second base bracket such that the support bracket may be mounted to the first base bracket in the first vehicle or to the second base bracket in the second vehicle.

An acceleration and braking mechanism kit autonomously controls a vehicle brake pedal and a vehicle accelerator pedal. The kit includes a support bracket and bell crank supported on the support bracket for connection with an acceleration pedal or a brake pedal of the vehicle. An actuator is connected to the bell crank for moving the bell crank. A first base bracket is configured to mount to a first vehicle. A second base bracket is configured to mount to a second vehicle. The first base bracket and the second base bracket each include a mounting feature. The support bracket includes a mounting base alternately engageable with the mounting feature of the first base bracket and the mounting feature of the second base bracket such that the support bracket may be mounted to the first base bracket in the first vehicle or to the second base bracket in the second vehicle.

Power switch manipulation apparatuses that allow users to manipulate power switches of FRUs mounted within storage racks in a manner free of a user having to physically reach into the storage rack to manipulate the power switches. One embodiment of the disclosed manipulation apparatus broadly includes a base member that may be rigidly secured to a portion of the frame of a storage rack (e.g., on a side or vertical member adjacent a rear door or opening of the rack at the same or similar height as at least one of the power switches) along with a tool that is movably mounted or mountable to the base member for manipulating a power switch of a FRU mounted in the rack.

Power switch manipulation apparatuses that allow users to manipulate power switches of FRUs mounted within storage racks in a manner free of a user having to physically reach into the storage rack to manipulate the power switches. One embodiment of the disclosed manipulation apparatus broadly includes a base member that may be rigidly secured to a portion of the frame of a storage rack (e.g., on a side or vertical member adjacent a rear door or opening of the rack at the same or similar height as at least one of the power switches) along with a tool that is movably mounted or mountable to the base member for manipulating a power switch of a FRU mounted in the rack.

The present invention comprises a heel insert for use with a phacoemulsification foot pedal that may shift a surgeon's foot forward on the treadle of a foot pedal to reduce the force required to actuate the foot pedal. The present invention may be easily attachable and removable and may provide a less complicated and alternative foot position for surgeons preferring different treadle mechanics.

A system for enabling a mobile robot to utilize an elevator autonomously comprises a pressing module including at least one pressing finger adapted to press elevator call buttons on an elevator call control panel. A lifting device of the system supports the pressing module and selectively adjusts a height position of the pressing module for aligning the at least one pressing finger on the pressing module to height positions horizontally aligned with the elevator call buttons. A controller wirelessly communicates with the mobile robot and the pressing module. In response to a command sent by the mobile robot, the controller instructs the pressing module to press an elevator call button on the elevator call control panel associated with the command.

A system for enabling a mobile robot to utilize an elevator autonomously comprises a pressing module including at least one pressing finger adapted to press elevator call buttons on an elevator call control panel. A lifting device of the system supports the pressing module and selectively adjusts a height position of the pressing module for aligning the at least one pressing finger on the pressing module to height positions horizontally aligned with the elevator call buttons. A controller wirelessly communicates with the mobile robot and the pressing module. In response to a command sent by the mobile robot, the controller instructs the pressing module to press an elevator call button on the elevator call control panel associated with the command.

A remote control device includes an electric drive unit controlling a control member, a position detection unit detecting a position of the control member, a control unit controlling operation of the electric drive unit, a reference position storage unit storing information related to a reference position of the control member, and an operation range setting unit setting an operation range of the control member from the reference position based on an output of the electric drive unit when the control member is displaced by the electric drive unit.

A remote control device includes an electric drive unit controlling a control member, a position detection unit detecting a position of the control member, a control unit controlling operation of the electric drive unit, a reference position storage unit storing information related to a reference position of the control member, and an operation range setting unit setting an operation range of the control member from the reference position based on an output of the electric drive unit when the control member is displaced by the electric drive unit.