Abstract:
This disclosure concerns a handheld wireless remote control in communication with a cellular network infrastructure that is adapted to transmit adjustable bed control signals to an adjustable bed controller via one of a standard wireless connection, RF, Bluetooth or WiFi in response to the user input. The remote control can receive, on the touch screen, feedback from the adjustable bed controller indicating the success of the control signal.
Abstract:
The present disclosure concerns an adjustable bed facility including a system for executing a computer-based safety-action during a motor-actuated adjustable bed position adjustment, comprising an adjustable bed facility comprising a computer-based controller, an actuator, and a sensor, the computer-based controller providing control of adjustable bed position adjustments, the actuator configured to adjust a height of the adjustable bed facility upon receiving a height-adjustment command from the computer-based controller, and the sensor for determining an actuator action parameter measured value of the actuator, the computer-based controller in communicative connection with the sensor to monitor and compare the motor action parameter measured value to an actuator action parameter normal operation value range, and when the controller determines the monitored motor action parameter measured value is outside the range of the actuator action parameter normal operation value range the controller sends a safety-action command to the actuator.
Abstract:
This disclosure concerns a wireless communication system adapted to produce a closed-loop feedback scheme between a handheld remote control and an adjustable bed controller. The adjustable bed controller is adapted to, in response to a receipt of a motion command from the handheld remote control via the closed-loop feedback scheme, adjust, with feedback, a portion of an adjustable bed. The feedback is based on a comparison of sensor feedback and a predetermined position stored in a memory of the adjustable bed controller. The handheld remote control can receive, through the closed-loop feedback scheme, a returned confirmation reflecting the state of the position of the bed segment in response to the control signal.
Abstract:
This disclosure concerns a communication system adapted to communicate between a handheld remote control and a first adjustable bed controller of a first adjustable bed facility, and a second communication system adapted to communicate between the first adjustable bed controller of the first adjustable bed facility and a second adjustable bed controller of a second adjustable bed facility.
Abstract:
Aspects of this invention relate to an adjustable bed that may include one or more articulating portions, and may include one or more components, including an air inflatable mattress associated with the adjustable bed frame, a programmable logic controller, a remote memory storage facility, a remote storage location of user preferences, a cell phone remote control, a modular control device, an air purification facility, a power outlet controller, a Bluetooth remote control, an ultra wide band remote control, a wireless USB remote control, and the like.
Abstract:
Aspects of this invention relate to an adjustable bed that may include one or more articulating portions, and may include one or more components, including an air inflatable mattress associated with the adjustable bed frame, a programmable logic controller, a remote memory storage facility, a remote storage location of user preferences, a cell phone remote control, a modular control device, an air purification facility, a power outlet controller, a Bluetooth remote control, an ultra wide band remote control, a wireless USB remote control, and the like.
Abstract:
This disclosure concerns a wireless communication system adapted to establish a feedback protocol between a handheld remote control and at least an adjustable bed controller, the handheld remote control having a memory position user interface adapted to initiate a transmission of a position recall command from the handheld remote control to an adjustable bed controller using the feedback protocol to adjust a position of a bed segment to a preset position from within a predetermined range of acceptable positions stored in memory. The adjustable bed controller is adapted to initiate a communication from the adjustable bed controller to the handheld remote to indicate that the adjustable bed controller has responded to the position recall command.
Abstract:
This disclosure concerns a handheld control with a user interface adapted to facilitate a user in adjusting a parameter of an adjustable bed and a parameter of a home control system. A display on the user interface displays a graphical representation of the adjustable bed parameter and a graphical representation of the home control system parameter.
Abstract:
Aspects of this invention relate to an adjustable bed that may include one or more articulating portions, and may include one or more components, including an air inflatable mattress associated with the adjustable bed frame, a programmable logic controller, a remote memory storage facility, a remote storage location of user preferences, a cell phone remote control, a modular control device, an air purification facility, a power outlet controller, a Bluetooth remote control, an ultra wide band remote control, a wireless USB remote control, and the like.
Abstract:
This disclosure concerns a two-way wireless communication system adapted to communicate between a handheld remote control and an adjustable bed controller wherein the handheld remote control includes a memory position user interface adapted to initiate a transmission of a position recall command from the handheld remote control. The adjustable bed controller indicates to the remote control that it has responded to the position recall command.