An information processing device includes a control unit that determines a travel path of a wheelchair that crosses a road. The control unit determines the travel path of the wheelchair based on information on undulations of a road surface of the road.

An information processing device includes a control unit that determines a travel path of a wheelchair that crosses a road. The control unit determines the travel path of the wheelchair based on information on undulations of a road surface of the road.

An information processing device includes a control unit that determines a travel path of a wheelchair. The control unit determines the travel path of the wheelchair based on information on a step existing on a road surface on which the wheelchair travels and information on a wheel of the wheelchair.

An information processing device includes a control unit that determines a travel path of a wheelchair. The control unit determines the travel path of the wheelchair based on information on a step existing on a road surface on which the wheelchair travels and information on a wheel of the wheelchair.

Provided is a robot including a main body provided with a pair of traveling wheels that are spaced apart from each other in a horizontal direction, a seating body disposed above the main body, a foot supporter disposed on a front lower portion of the main body, at least one front wheel disposed on the foot supporter, and a rear wheel disposed on the main body so as to be closer to a rear end of the main body than a front end of the main body and the traveling wheel is closer to the front end of the main body than the rear end of the main body.

Provided is a robot. The robot includes a main body which is provided with a traveling wheel and in which an opening portion is defined in a top surface thereof, a seat configured to cover the opening portion at an upper side of the opening portion, an elevation mechanism disposed within the main body, the elevation mechanism being configured to elevate the seat with respect to the main body, and a gap cover configured to be elevated together with the seat, the gap cover being configured to cover a gap between the seat and the main body. The seat includes a seat base to which the gap cover is connected and which is inserted into the opening portion and a seat pad configured to cover the seat base at an upper side of the seat base, the seat pad being disposed above the main body.

Provided is a robot. The robot includes a main body which is provided with a traveling wheel and in which an opening portion is defined in a top surface thereof, a seat configured to cover the opening portion at an upper side of the opening portion, an elevation mechanism disposed within the main body, the elevation mechanism being configured to elevate the seat with respect to the main body, and a gap cover configured to be elevated together with the seat, the gap cover being configured to cover a gap between the seat and the main body. The seat includes a seat base to which the gap cover is connected and which is inserted into the opening portion and a seat pad configured to cover the seat base at an upper side of the seat base, the seat pad being disposed above the main body.

Embodiments herein are directed to a vehicle. The vehicle includes a passenger compartment and a master controller. The passenger compartment has a plurality of rear passenger seats disposed on a track. Each seat of the plurality of rear passenger seats is configured to move on the track. The master controller is configured to receive a first data from a wheelchair and to direct a movement of each seat of the plurality of rear passenger seats along the track. In response to receiving the first data, the master controller actuates at least one actuator to move at least one of the plurality of rear passenger seats along the track to provide a transportation space for the wheelchair based on the first data received from the wheelchair.

Embodiments herein are directed to a vehicle. The vehicle includes a passenger compartment and a master controller. The passenger compartment has a plurality of rear passenger seats disposed on a track. Each seat of the plurality of rear passenger seats is configured to move on the track. The master controller is configured to receive a first data from a wheelchair and to direct a movement of each seat of the plurality of rear passenger seats along the track. In response to receiving the first data, the master controller actuates at least one actuator to move at least one of the plurality of rear passenger seats along the track to provide a transportation space for the wheelchair based on the first data received from the wheelchair.

A motorized wheelchair controlled by electronic control, equipped with a structure adapted to receive a series of quick adjustments and an off-road kit to allow its locomotion through differentiated, rough and inhospitable terrains. Said wheelchair is formed by a tubular metallic structure composed of a seat structure, backrest structure, armrest and lower support structure equipped with a front wheel and rear wheel. The off-road kit consists of a pair of rear wheels with off-road or mixed tires equipped with their own rotating motor, and a pair of front wheels with off-road or mixed tires, being such wheels engaged and fixed to the chair, easily and quickly replacing the original ones.