Introduced are methods and systems for monitoring a person's sleeping patterns, and detecting episodes of sleeping disorders such as snoring and sleep apnea. In one embodiment, a sensor strip attached to the mattress monitors the user's breathing, and detects signature frequencies corresponding to snoring and sleep apnea. Once a sleeping disorder is detected, a notification can be sent to a device associated with the user, or the user's bed can be automatically adjusted to alleviate the sleeping disorder.

A topper (38) for a bed extends in longitudinal and lateral directions and includes a fluid flowpath (60) for channeling fluid through the topper from an inlet (62) to an outlet (64). The flowpath is configured to distribute the fluid to a preferred target region (50) of the topper. A bed which includes the topper has a blower (72) connected to the topper inlet for supplying air (88) to the flowpath.

The present teachings provide for wheelchair including a control module, manual drive controls, a camera, biometric sensors, and an antenna. The control module includes an autonomous drive module configured to autonomously pilot the wheelchair. The biometric sensors are configured to measure biometric information of a user of the wheelchair.

A person support system is disclosed that includes cooling features to provide focal cooling to a subject supported by the person support system. Embodiments of the person support system include a longitudinal frame having at least one side rail, a deck position on the longitudinal frame, a support pad positioned on the deck, and a cooling source thermally coupled to the deck. The deck is a thermally conductive material. The cooling source draws heat from a portion of the support pad, through the top surface of the deck, and through the deck thereby cooling the portion of the support pad. The cooling source may be positioned in the side rail or directly to a bottom surface of the deck. Cooling systems that are removeably coupleable to person support systems are also disclosed.

A support apparatus configured to support a person is provided. The support apparatus includes a top surface including one or more predetermined areas, one or more conduits located inside the support apparatus which are located proximate to the one or more predetermined areas, and an air supply configured to provide air to the one or more conduits for delivering to the one or more predetermined areas. The air supply includes a temperature sensor configured to measure a temperature of the air provided by the air supply, a cooling element, and a controller communicatively coupled to the temperature sensor and the cooling element. The controller determines whether the measured temperature of the air is higher than a predetermined temperature, and controls the cooling element to cool the air to the predetermined temperature if it is determined that the temperature of the air is higher than the predetermined temperature.

According to some embodiments, a climate controlled bed or other seating assembly comprises an upper portion or mattress having at least one fluid distribution member (e.g., spacer fabric) that is in fluid communication with the at least one internal passageway of the upper portion, wherein the at least one fluid distribution member is configured to at least partially distribute fluid within the fluid distribution member. In some embodiments, the internal passageway terminates at or near a bottom surface of the upper portion or mattress. The bed or other seating assembly additionally includes one or more inlays or interlays or intermediate layers, or components thereof, positioned between the upper portion and a foundation.

A care unit can include a base member and a plurality of petal members. Each petal member can extend from a first end, engaged with the base member, to a second end, spaced from the base member. Inward-facing surfaces of at least two petal members and the base member can collectively define a cavity for receiving at least a portion of the patient. The care unit can further include one or both of a therapy component, configured to provide a treatment to the patient, or a sensor component, configured to monitor a condition of the patient. The therapy component can be coupled to, or integrated with, one or both of the base member or a petal member and can include an optical light source, a thermal energy source, an oxygen or air source, a sound wave source, a sound wave-cancelling source, or a pulsating source, for example.

An encapsulated zonal dual air and foam spring bed system with noise suppression wherein air zones are created for individual or multiple sleepers that permit costs saving by providing manifold controls to enable a single pump to serve multiple circuits simultaneously (both pressure level increase and pressure level decrease) that is contained within a complete noise deadening structure whose body is easily formed to reduce cost and provide sanitation. Through the reduction of stress by cycling air support between two areas that in unison and each at half pressure support subject fully.

A topper (38) for a bed extends in longitudinal and lateral directions and includes a fluid flowpath (60) for channeling fluid through the topper from an inlet (62) to an outlet (64). The flowpath is configured to distribute the fluid to a preferred target region (50) of the topper. A bed which includes the topper has a blower (72) connected to the topper inlet for supplying air (88) to the flowpath.

Some embodiments provide for an inspiratory limb for a breathing circuit that includes a first segment that comprises a first heater wire circuit and a second segment that comprises a second heater wire circuit. The inspiratory limb can include an intermediate connector that includes a connection circuit that electrically couples the first heater wire circuit to the second heater wire circuit. The inspiratory limb can be configured to operate in two modes wherein, in a first mode, electrical power passes through the first electrical connection to provide power to the first heater wire circuit without providing power to the second heater wire circuit, and in a second mode, electrical power pass through the first electrical connection to provide power to both the first heater wire circuit and the second heater wire circuit.