A stationary communication unit is adapted to be mounted to a headwall of a healthcare facility and enable wireless communication between a patient support apparatus and a nurse call system. The unit also performs one or more additional functions, such as, but not limited to: determining when a healthcare worker enters/exits the room; determining when the patient support apparatus exits/enters the room; storing/retrieving medical device data associated with a patient; directing medical device data to one or more displays in the room; auto-updating, auto-retrieving, and/or auto-displaying data upon healthcare worker entry into the room; auto-muting room sounds during nurse-patient communication; and auto-directing a healthcare workers electronic device to data associated with the patient in that room. In alternative embodiments, one or more of these additional functions are incorporated into a patient support apparatus.

A smart wheel is provided, including a main body, at least one wheel body and a GPS module. The main body includes a pin and a wheel seat, and the wheel seat is connected with the pin. The at least one wheel body is pivoted to the wheel seat along an axial direction. The GPS module is arranged on the main body and includes a GPS chip.

An accessory detection apparatus for a modular medical device includes a support portion and at least one support accessory in connection with the support portion via a connection interface. The connection interface is configured to support the at least one support accessory extending from the support portion. The accessory detection apparatus includes at least one detection device in connection with a first portion of the connection interface and at least one identifier element in connection with a second portion of the connection interface. The apparatus further includes a controller in communication with the at least one detection device. The controller is configured to process at least one signal communicated from the at least one detection device and detect an identifier of at least one support accessory in response to the at least one signal.

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 system for monitoring medical conditions including pressure ulcers, pressure-induced ischemia and related medical conditions comprises at least one sensor adapted to detect one or more patient characteristic including at least position, orientation, temperature, acceleration, moisture, resistance, stress, heart rate, respiration rate, and blood oxygenation, a host for processing the data received from the sensors together with historical patient data to develop an assessment of patient condition and suggested course of treatment. In some embodiments, the system can further include a support surface having one or more sensors incorporated therein either in addition to sensors affixed to the patient or as an alternative thereof. The support surface is, in some embodiments, capable of responding to commands from the host for assisting in implementing a course of action for patient treatment. The sensor can include bi-axial or tri-axial accelerometers, as well as resistive, inductive, capacitive, magnetic and other sensing devices, depending on whether the sensor is located on the patient or the support surface, and for what purpose.

Methods and systems for registering a manipulator assembly and independently positionable surgical table are provided herein. In one aspect, methods include reading a fiducial marker on the surgical table with a sensor associated with the manipulator assembly and localizing the manipulator assembly and surgical table with respect to a common reference frame. Methods may further include translating a 3D configuration of the surgical table to a 2D frame of reference so as to estimate a 3D pose of the surgical table relative the manipulator assembly for use in coordinating movements therebetween.

A system for monitoring the health and safety of recumbent individuals. In some embodiments, the bed monitor system comprises a wired or wireless sensor mat which may be positioned upon a bed mattress and underneath a bedsheet. Multiple RFID tag sensors embedded within the sensor mat can detect physical, bodily, and environmental attributes and transmit this information to a controller box for further processing. Turn regiment, prohibited body positions, imminent fall danger, and bed occupancy may therefore be tracked and updated accordingly. In some embodiments, the system can dynamically generate positional images of a body proximate to the sensor mat in order to identify adverse conditions requiring attention. Incontinence discharges can also be detected by sensors and algorithms which can differentiate urinary from fecal incontinence events. Various embodiments of the system are portable, allowing for a rapid set-up within hospital venues and within other care facilities.

A patient support apparatus, such as a hospital bed, communicates with an electronic medical record (EMR) system in healthcare facility. The hospital bed includes a patient support structure to support a patient, a graphical user interface coupled to the patient support structure, and control circuitry coupled to the graphical user interface. The graphical user interface displays at least one input that may be used by a caregiver to chart data into an electronic medical record (EMR) of a patient supported by the patient support structure.

A power ambulance cot having a cot control system operably connected to a cot actuation system to control independent raising and lowering of front and back legs thereof, and which detects a presence of a signal requesting a change in elevation of a support frame thereof and causes the cot actuation system to raising or the lowering of the front and/or back legs automatically upon detecting a condition during loading/unloading a patient from an emergency vehicle or transporting the patient up or down an escalator and methods thereafter are disclosed.

In the embodiments described herein, the scale assembly automatically determines if an accessory, such as a sling, is properly connected to a sling bar of the person lifting device and, if the accessory is not properly connected, the scale assembly provides a user with a visual and/or audible warning and, in some embodiments, may lock-out the actuation controls of the person lifting device to prevent the person lifting device from being used.