A stackable rocking chair has a seat, a back, a right front leg and a left front leg attached to the seat, a right rocker and a left rocker, a right rear leg connected to the seat and the right rocker and a left rear leg connected to the seat and the left rocker, a right arm and a left arm that extend from the back and an arm support for each arm. The lower end of each arm support is attached to a rocker and the upper end of each arm support is attached to an arm. Each arm support is adjacent and substantially parallel to one of the front legs, such that there is a gap between the front leg and the arm support. One stackable rocker can be stacked on another stackable rocker by positioning the rockers of one chair within the gaps in the other chair.

A stackable rocking chair has a seat, a back, a right front leg and a left front leg attached to the seat, a right rocker and a left rocker, a right rear leg connected to the seat and the right rocker and a left rear leg connected to the seat and the left rocker, a right arm and a left arm that extend from the back and an arm support for each arm. The lower end of each arm support is attached to a rocker and the upper end of each arm support is attached to an arm. Each arm support is adjacent and substantially parallel to one of the front legs, such that there is a gap between the front leg and the arm support. One stackable rocker can be stacked on another stackable rocker by positioning the rockers of one chair within the gaps in the other chair.

Systems, methods, tangible non-transitory computer-readable media, and devices associated with the operation of a vehicle are provided. For example a vehicle computing system can receive occupancy data that includes information associated with occupancy of a vehicle that includes seats. One or more states of the vehicle can be determined. The states of the vehicle can include a disposition of any object that is within the vehicle. Further, a configuration of the seats in the vehicle can be determined based on the occupancy data and the states of the vehicle. The configuration can include a disposition of the seats inside the vehicle. Furthermore, at least one of the seats can be adjusted based on the configuration that was determined.

Systems, methods, tangible non-transitory computer-readable media, and devices associated with the operation of a vehicle are provided. For example a vehicle computing system can receive occupancy data that includes information associated with occupancy of a vehicle that includes seats. One or more states of the vehicle can be determined. The states of the vehicle can include a disposition of any object that is within the vehicle. Further, a configuration of the seats in the vehicle can be determined based on the occupancy data and the states of the vehicle. The configuration can include a disposition of the seats inside the vehicle. Furthermore, at least one of the seats can be adjusted based on the configuration that was determined.

A chair having a first frame portion with a backrest support and a rear leg portion at least part of the backrest support and the leg portion being formed from a single piece. A second frame portion has a seat support and a front leg portion extending in a direction transverse to the seat support, the seat support in a fixed position relative to the backrest support. The backrest support molded thereover in foam, the backrest support being substantially peripherally located around the foam of the backrest and the backrest being provided free from rigid supports extending across a middle portion of the backrest. The seat support molded thereover in foam, the seat support being substantially peripherally located around the foam of the seat and the seat being provided free from rigid supports extending across a middle portion of the seat.

A chair having a first frame portion with a backrest support and a rear leg portion at least part of the backrest support and the leg portion being formed from a single piece. A second frame portion has a seat support and a front leg portion extending in a direction transverse to the seat support, the seat support in a fixed position relative to the backrest support. The backrest support molded thereover in foam, the backrest support being substantially peripherally located around the foam of the backrest and the backrest being provided free from rigid supports extending across a middle portion of the backrest. The seat support molded thereover in foam, the seat support being substantially peripherally located around the foam of the seat and the seat being provided free from rigid supports extending across a middle portion of the seat.

Systems, methods, tangible non-transitory computer-readable media, and devices associated with the operation of a vehicle are provided. For example a vehicle computing system can receive occupancy data that includes information associated with occupancy of a vehicle that includes seats. One or more states of the vehicle can be determined. The states of the vehicle can include a disposition of any object that is within the vehicle. Further, a configuration of the seats in the vehicle can be determined based on the occupancy data and the states of the vehicle. The configuration can include a disposition of the seats inside the vehicle. Furthermore, at least one of the seats can be adjusted based on the configuration that was determined.

Systems, methods, tangible non-transitory computer-readable media, and devices associated with the operation of a vehicle are provided. For example a vehicle computing system can receive occupancy data that includes information associated with occupancy of a vehicle that includes seats. One or more states of the vehicle can be determined. The states of the vehicle can include a disposition of any object that is within the vehicle. Further, a configuration of the seats in the vehicle can be determined based on the occupancy data and the states of the vehicle. The configuration can include a disposition of the seats inside the vehicle. Furthermore, at least one of the seats can be adjusted based on the configuration that was determined.

A chair leg mountable coaster assembly includes a plate that is mountable to one of a plurality of legs of a chair. The plate extends laterally from the leg in a single direction that is orientated parallel to a plane that extends through bottom ends of the plurality of legs. The plate is one of a plurality of the plates, each of which is configured to be mountable to a respective one of the plurality of the legs so that each leg is engaged with one of the plates. The plates reduce penetration of the legs into a soft substrate, such as sand, dirt, and soil. The plates are sized to allow multiple ones of the chairs to be stacked without interference by the plates.

A foldable chair comprises a seat (1) and a back (2) available according to at least an angular position in which an angular distance between the same is minimum and another angular position in which the angular distance between the same is maximum; and first rotational means configured to define a first axis of rotation and arranged for a first relative angular movement between the seat (1) and the back (2); in addition to second rotational means configured to define a second axis of rotation and arranged for a second relative angular movement between the seat (1) and the back (2). In accordance with this arrangement, the first rotational means and the second rotational means are arranged independently with respect to one another for independent angular movements of the seat (1) and of the back (2) with respect to one another.