A cooling system for an agricultural vehicle includes a housing configured to support one or more cooling components, a debris conduit extending from the housing of the cooling system, a suction fan configured to rotate to apply negative airflow, and a valve configured to move between an open position in which the debris conduit is fluidly coupled to the suction fan and a closed position in which the debris conduit is isolated from the suction fan.

A sensor assembly includes a cylindrical sensor window defining an axis, and an annular member coupled to the sensor window and rotatable about the axis. The annular member includes a nozzle aimed at the sensor window and oriented at an acute angle from a radial direction toward the axis in a plane orthogonal to the axis.

A sensor assembly includes a cylindrical sensor window defining an axis, and an annular member coupled to the sensor window and rotatable about the axis. The annular member includes a nozzle aimed at the sensor window and oriented at an acute angle from a radial direction toward the axis in a plane orthogonal to the axis.

A cleaner system is mounted on a vehicle including an external sensor configured to acquire information outside the vehicle. The cleaner system includes: a cleaning device configured to clean the external sensor or prevent adhesion of dirt to the external sensor by discharging a cleaning medium to the external sensor; and a cleaner control unit configured to operate the cleaning device at a predetermined cleaning strength when a predetermined operation condition is satisfied. The cleaner control unit further acquires a travel situation of the vehicle, and controls a cleaning strength based on the travel situation.

A cleaner system is mounted on a vehicle including an external sensor configured to acquire information outside the vehicle. The cleaner system includes: a cleaning device configured to clean the external sensor or prevent adhesion of dirt to the external sensor by discharging a cleaning medium to the external sensor; and a cleaner control unit configured to operate the cleaning device at a predetermined cleaning strength when a predetermined operation condition is satisfied. The cleaner control unit further acquires a travel situation of the vehicle, and controls a cleaning strength based on the travel situation.

A vehicle that is an electric vehicle, includes a battery, a vehicle body, a fastening member, and a cleansing unit. The vehicle body includes a mounting portion. The mounting portion is configured to mount the battery. The fastening member fastens the battery to the mounting portion. The cleansing unit cleanses the fastening member.

A vehicle that is an electric vehicle, includes a battery, a vehicle body, a fastening member, and a cleansing unit. The vehicle body includes a mounting portion. The mounting portion is configured to mount the battery. The fastening member fastens the battery to the mounting portion. The cleansing unit cleanses the fastening member.

Techniques for cleaning and calibrating a microphone are discussed herein. For example, a computing device can implement a microphone component to operate a speaker adjacent to a microphone to cause removal of an obstruction (e.g., rain, mud, dirt, dust, snow, ice, animal droppings, etc.) on or near the microphone. The microphone component can also or instead cause the speaker to output a frequency for testing operation of the microphone. By implementing the cleaning and/or calibrating techniques described herein, foreign particle(s) of varying size and type can be dislodged from an area near the microphone to improve performance of the microphone.

Techniques for cleaning and calibrating a microphone are discussed herein. For example, a computing device can implement a microphone component to operate a speaker adjacent to a microphone to cause removal of an obstruction (e.g., rain, mud, dirt, dust, snow, ice, animal droppings, etc.) on or near the microphone. The microphone component can also or instead cause the speaker to output a frequency for testing operation of the microphone. By implementing the cleaning and/or calibrating techniques described herein, foreign particle(s) of varying size and type can be dislodged from an area near the microphone to improve performance of the microphone.

Embodiments herein relate to an autonomous vehicle or self-driving vehicle with a vehicle control system. The vehicle control system can determine, prior to and/or during a collision, whether an escape path exits. If an escape path exists, the brakes are disengaged such that at least some of the energy and/or momentum from a colliding vehicle is transferred and a jolt or shock experienced by an occupant is reduced.