An information processing apparatus mounted on a first vehicle includes a recognizer that recognizes a second vehicle that is present in a travelling direction of the first vehicle on a basis of sensing information obtained from a sensor attached to an outside of the first vehicle, and a determiner that determines whether or not control for overtaking the recognized second vehicle is executed. The apparatus also includes a generator that generates first information for moving the first vehicle in a second direction toward a second road end in a case where the determiner determines that the control for overtaking is executed, the second road end being opposite to a first road end toward which a first direction is directed, and the first direction being a direction in which the first vehicle moves in order to overtake the second vehicle. The apparatus further includes an outputter that outputs the generated first information.

An information processing apparatus mounted on a first vehicle includes a recognizer that recognizes a second vehicle that is present in a travelling direction of the first vehicle on a basis of sensing information obtained from a sensor attached to an outside of the first vehicle, and a determiner that determines whether or not control for overtaking the recognized second vehicle is executed. The apparatus also includes a generator that generates first information for moving the first vehicle in a second direction toward a second road end in a case where the determiner determines that the control for overtaking is executed, the second road end being opposite to a first road end toward which a first direction is directed, and the first direction being a direction in which the first vehicle moves in order to overtake the second vehicle. The apparatus further includes an outputter that outputs the generated first information.

During automated or autonomous travel control of a subject vehicle, when a road section including at least one of a curve and a narrow road is present ahead of the subject vehicle and another vehicle is traveling in an adjacent lane to the traveling lane for the subject vehicle, inter-vehicle distance control is executed in which the subject vehicle is controlled to travel with an inter-vehicle distance that is set such that the subject vehicle and the other vehicle do not travel side by side when the subject vehicle travels in the road section.

In one aspect, a method for pre-emptively adjusting machine parameters based on predicted field conditions may include monitoring an operating parameter of as the agricultural machine makes a first pass across a field. The method may also include initiating active adjustments of the travel speed of the machine based on the operating parameter as the machine makes the first pass. Furthermore, the method may include generating a map based on the travel speed and the operating parameter that included efficiency zones associated with one or more travel speeds. Moreover, the method may include determining predicted efficiency zones for an adjacent second swath within the field based on efficiency zones of the first swath within the field map. Additionally, the method may include pre-emptively initiating adjustments of the travel speed as the machine makes a second pass across the field based on the efficiency parameter for each predicted efficiency zone.

In one aspect, a method for pre-emptively adjusting machine parameters based on predicted field conditions may include monitoring an operating parameter of as the agricultural machine makes a first pass across a field. The method may also include initiating active adjustments of the travel speed of the machine based on the operating parameter as the machine makes the first pass. Furthermore, the method may include generating a map based on the travel speed and the operating parameter that included efficiency zones associated with one or more travel speeds. Moreover, the method may include determining predicted efficiency zones for an adjacent second swath within the field based on efficiency zones of the first swath within the field map. Additionally, the method may include pre-emptively initiating adjustments of the travel speed as the machine makes a second pass across the field based on the efficiency parameter for each predicted efficiency zone.

A control device includes an electronic control unit. The electronic control unit is configured to perform autonomous driving of a vehicle to autonomously control at least a vehicle speed so that the vehicle speed follows a preset target vehicle speed; store a relationship between the vehicle speed and noise that is generated by a vehicle part rotated in association with running of the vehicle; determine, based on the relationship, whether the noise is equal to or larger than a preset determination threshold when the vehicle runs at the target vehicle speed; and when the electronic control unit determines that the noise is equal to or larger than the determination threshold, determine a vehicle speed at which the noise is lower than the determination threshold, and change the target vehicle speed to the vehicle speed at which the noise is lower than the determination threshold.

A control device includes an electronic control unit. The electronic control unit is configured to perform autonomous driving of a vehicle to autonomously control at least a vehicle speed so that the vehicle speed follows a preset target vehicle speed; store a relationship between the vehicle speed and noise that is generated by a vehicle part rotated in association with running of the vehicle; determine, based on the relationship, whether the noise is equal to or larger than a preset determination threshold when the vehicle runs at the target vehicle speed; and when the electronic control unit determines that the noise is equal to or larger than the determination threshold, determine a vehicle speed at which the noise is lower than the determination threshold, and change the target vehicle speed to the vehicle speed at which the noise is lower than the determination threshold.

A driving support ECU performs an inter-vehicle-distance control and a following-travel steering control. When an inter-vehicle-distance target vehicle and a following-travel steering target vehicle are the same specific other vehicle as each other, and there is a potential cutting-in vehicle between an own vehicle and the specific other vehicle, the driving support ECU newly specifies the potential cutting-in vehicle as the inter-vehicle-distance target vehicle at a first time point in a cutting-in period and newly specifies the potential cutting-in vehicle as the following-travel steering target vehicle at a second time point in the cutting-in period.

Provided is a traveling apparatus including an adjusting mechanism configured to adjust a wheel base length between a front wheel and a rear wheel by an action of the user being transmitted, a command accept unit configured to accept a command for traveling forward or backward from the user, and a control unit configured to, while the command accept unit accepts the command for traveling forward, control a driving unit to drive the traveling apparatus to travel forward based on a forward target speed associated with the wheel base length in such a way that the greater the wheel base length, the greater the forward target speed becomes, and while the command accept unit accepts the command for traveling backward, control the driving unit to drive the traveling apparatus to travel backward based on a backward target speed associated with the wheel base length.

Provided is a traveling apparatus including an adjusting mechanism configured to adjust a wheel base length between a front wheel and a rear wheel by an action of the user being transmitted, a command accept unit configured to accept a command for traveling forward or backward from the user, and a control unit configured to, while the command accept unit accepts the command for traveling forward, control a driving unit to drive the traveling apparatus to travel forward based on a forward target speed associated with the wheel base length in such a way that the greater the wheel base length, the greater the forward target speed becomes, and while the command accept unit accepts the command for traveling backward, control the driving unit to drive the traveling apparatus to travel backward based on a backward target speed associated with the wheel base length.