Various systems and methods relate to an adaptive chair system having (i) a stowed mode in which the members of the chair frame are contained within a compact flexible multi-function bag (MFB), and (ii) a deployed mode in which the MFB is adapted to releasably couple to an arm of the chair to provide a multipurpose accessory chamber. In an illustrative example, the MFB may, for example, fold in on itself in an accessory mode. The MFB may provide various utilities for hikers, for example, by providing a case to receive an inflatable bladder so as to form a pillow. The MFB may receive a thermal liner adapted to maintain, for example, food or beverage temperature. Various embodiments may provide multifunctional services such as sun/rain canopy and footrest, for example, using the adaptive chair system in an ultralight form factor that is strong yet compact in the stowed mode.

A seat and storage system is provided that can be used for fishing in various circumstances, including in water that is located remotely and/or located next to uneven or highly sloped ground. The seat and storage system is designed to combine seating with adaptable integrated storage units in a single multi-purpose unit that can be carried against a person's back by utilizing adjustable shoulder straps. In addition, a drop bag can be placed inside the unit when it is in an open state and the drop bag can be used to hold bait, the catch, or a variety of other items.

A yoga or exercise stool may have a seat portion and a base portion; the base portion having window slot(s) formed in a front side, a rear side, or both; a handle slot formed at least in one side, such as the front side, at or near the top; horizontal gripping slot(s) formed in the left side, the right side, or both, at or near the top; and vertical gripping slot(s) formed in the left side, the right side, or both, at or near the bottom; advantageously four such slots being formed near the bottom corners of the left and right sides. A yoga stool also may have a base portion, and a seat portion on top of the base portion, wherein the seat portion has an internal firm support member such as a solid slat, and preferably softer material such as foam rubber surrounding the support member, at least on the left and right sides. The yoga stool may include opposed side elements joined by a rear element and front element with a removable top element that may be U-Shaped to allow for additional poses or exercises.

Various systems and methods relate to an adaptive chair system having (i) a stowed mode in which the members of the chair frame are contained within a compact flexible multi-function bag (MFB), and (ii) a deployed mode in which the MFB is adapted to releasably couple to an arm of the chair to provide a multipurpose accessory chamber. In an illustrative example, the MFB may, for example, fold in on itself in an accessory mode. The MFB may provide various utilities for hikers, for example, by providing a case to receive an inflatable bladder so as to form a pillow. The MFB may receive a thermal liner adapted to maintain, for example, food or beverage temperature. Various embodiments may advantageously provide a rugged, water resistant MFB system in an ultralight form factor that serves as a multi-purpose accessory (e.g., to store items), yet provides a compact, adaptive chair frame containment.

A pillow includes a body including a shoulder rest, a cervical spine rest and an occipital region rest; a first wing portion extending from the body to one side; and a second wing portion extending from the body to the other side. The occipital region rest includes a second inclined surface inclining downward at a predetermined angle toward a rear of the body and a recess portion recessed from an end of the second inclined surface toward an inside of the body to bring an upper occipital region into contact with a floor surface. According to the pillow, the respiratory tract is maximally opened when lying flat such that snoring is prevented and nose breathing is enabled, and since the load of the head is dispersed on the entire floor, the burden applied to the cervical vertebrae and shoulders by weight of the head itself can be reduced.

Wearable systems to partially support the weight of a human user engaged in task performance in a crouched position at or near ground level are presented herein. In one aspect, the wearable systems employ passive mechanisms and the configuration of the support mechanisms is changed by movements of the body of the human user while transitioning from a standing position to a crouched position, and vice-versa. In a further aspect, each passive lower body support assembly includes an auxiliary body support structure to enhance the support of the human user in a crouched position. In another further aspect, each auxiliary body support structure is deployed in coordination with the movement of the seat support structure that supports the human user. In some embodiments, one or more body support structures are constructed from an elastic material that conforms to the ground surface when loaded by the weight of the human user.

Wearable systems to partially support the weight of a human user engaged in task performance in a crouched position at or near ground level are presented herein. In one aspect, the wearable systems employ passive mechanisms and the configuration of the support mechanisms is changed by movements of the body of the human user while transitioning from a standing position to a crouched position, and vice-versa. In a further aspect, each passive lower body support assembly includes an auxiliary body support structure to enhance the support of the human user in a crouched position. In another further aspect, each auxiliary body support structure is deployed in coordination with the movement of the seat support structure that supports the human user. In some embodiments, one or more body support structures are constructed from an elastic material that conforms to the ground surface when loaded by the weight of the human user.

A wearable sitting-posture assisting device with includes at least one leg unit that defines at least one longitudinal leg axis, and includes at least one foot unit that is configured for a connection of a shoe and/or a foot of a person, and includes at least one bearing unit supporting at least a portion of the foot unit such that it is translationally movable at least transversely to the at least one longitudinal leg axis.

The bearing unit comprises at least one reset element, which is configured, in at least one bearing position, to apply a reset force to at least a portion of the foot unit.

A wearable sitting-posture assisting device with includes at least one leg unit that defines at least one longitudinal leg axis, and includes at least one foot unit that is configured for a connection of a shoe and/or a foot of a person, and includes at least one bearing unit supporting at least a portion of the foot unit such that it is translationally movable at least transversely to the at least one longitudinal leg axis.

The bearing unit comprises at least one reset element, which is configured, in at least one bearing position, to apply a reset force to at least a portion of the foot unit.

A collapsible stool and cover assembly for providing portable seating and shade includes a stool comprising a pair of stool legs having a pair of stool axles. A foldable stool sling is coupled to the pair of stool legs and limits the range of motion of the pair of stool legs between an expanded position with the stool sling taut and an alternative folded position. A shade cover comprises a pair of horizontal supports. Each of the pair of supports comprises a first half and a second half. A pair of support hinges is coupled to the pair of supports. Each of the pair of support hinges is coupled between the first half and the second half of the pair of supports. A cover sling is coupled to the pair of horizontal supports. The shade cover moves between an erect position and an alternate collapsed position.