A flexible vibrating module with flexible radiating arms outwardly projecting around the module, with each arm having an associated coin motor which can optionally be operated at high frequency or low frequency or pulsing frequency, is shown in combination with a wrap having a snap in flexible grommet for the module to consistently orient properly the module with respect to a patient's muscles or joints.

A method for activating massage units in a seat, a control device for carrying out the method, and seat arrangement are described. One method for activating massage units in a seat, in particular in a vehicle seat, includes playing back an acoustic entertainment signal, in particular a piece of music, by means of a playback device, in particular an entertainment system of a vehicle. The method further includes controlling massage units integrated in the seat based on the acoustic entertainment signal by means of a control device.

A flexible vibrating module with flexible radiating arms outwardly projecting around the module, with each arm having an associated coin motor which can optionally be operated at high frequency or low frequency or pulsing frequency, is shown in combination with a wrap having a snap in flexible grommet for the module to consistently orient properly the module with respect to a patient's muscles or joints.

The present invention is a method and device for inducing or promoting a meditative state.

The present invention relates to a system and method for distributed sensory stimulation, the system comprising a control unit (10) for receiving an electrical audio signal and for distributing said signal into a plurality of sensory signals, and a plurality of actuators (20L, 20R, 21L, 21R, 22L, 22R, 23L, 23R, 24L, 24R) connected to said control unit (10) and configured to receive the sensory signals, acting by providing sensory stimulation in specific regions of a user's body, wherein the regions of the user's body comprise three regions involved in human perception ranging from the ears, the lower limbs and back and the lower back and gluteus; the actuators comprise eight vibration actuators and two auditory actuators producing said sensory stimulation in the three regions of the user; and the control unit (10) performs delivery considering the vibrational capturing capacity of each of said three regions depending on the volume and structural density thereof.

A flexible vibrating module with flexible radiating arms outwardly projecting around the module, with each arm having an associated coin motor which can optionally be operated at high frequency or low frequency or pulsing frequency, is shown in combination with a wrap having a snap in flexible grommet for the module to consistently orient properly the module with respect to a patient's muscles or joints.

A psychosomatic state adjustment support device includes: a storage section that stores a target psychosomatic state for each destination of a moving body; a specification section that specifies a current psychosomatic state of an occupant of the moving body; an acquisition section that acquires a destination of the moving body; a deciding section that decides a vibration pattern based on the target psychosomatic state according to the destination and the current psychosomatic state; and a control section that applies a vibration stimulation to the occupant by causing a vibration applying section provided in a seat on which the occupant is seated to vibrate based on the vibration pattern.

The present invention relates to a method for activating massage units in a seat, in particular in a vehicle seat, comprising the following steps: playing back an acoustic entertainment signal, in particular a piece of music, by means of a playback device, in particular an entertainment system of a vehicle; controlling massage units integrated in the seat based on the acoustic entertainment signal by means of a control device. The present invention also relates to a control device for carrying out a method of this kind, and to a corresponding seat arrangement.

Vibration based stimulation or pressure based stimulation are commonly employed in a wide range of devices for medical, therapeutic, and recreational activities. These are designed to be applied against a predetermined region of a user's body. However, there are many instances where it would beneficial to provide the user with a wearable device where these one or more predetermined regions of the user's body may be inserted through or disposed within the device providing vibratory and/or pressure based stimulation. Further, such devices may be augmented with other therapeutic means such as light therapy or ultrasonic therapy. Accordingly, a range of wearable devices exploiting hollow shaft motors, electromagnetic actuators, and fluidics are presented.

A vibrotactile device and method including an audio signal input unit, manual parameter input unit, microcontroller, vibration motor controller, and at least one vibration motor are provided. The microcontroller is coupled to the audio signal input unit and manual parameter input unit. The vibration motor controller is coupled to the microcontroller and the at least one vibration motor. At least one signal is generated by at least the audio signal input unit or the manual parameter input unit. A modulated signal is generated based, in part, on a filtered signal from the audio signal input unit and a vibration duty cycle is generated, based on a tempo value and a note value of the manual parameter input unit, to generate at least one driving parameter, respectively. The vibration motor controller drives the at least one vibration motor based on the at least one driving parameter.