The method for protecting biological objects (BO) from the negative influence of technogenic electromagnetic (EM) radiation in a wide range of frequencies, which consists of creating a coherent field in the form of a fractal matrix around a biological object using a fractal-matrix as coherent transducer based on a self-affine annular raster lattice (resonator) formed from ringed topological lines, which create a slit-like raster, and is a universal Fourier transformer that harmonizes the amplitude, phase, frequency and polarization vector of external technogenic radiation and the BO's own EM radiation. The transformation of external radiation occurs in accordance with the Fourier transform with the formation of a coherent matrix of EM wave superpositions. The coherent matrix does not conflict with the BO. The transformation does not affect the functioning of the technical devices. The coherent transformer can be placed on the BO, or between the BO and the source.

The method for protecting biological objects (BO) from the negative influence of technogenic electromagnetic (EM) radiation in a wide range of frequencies, which consists of creating a coherent field in the form of a fractal matrix around a biological object using a fractal-matrix as coherent transducer based on a self-affine annular raster lattice (resonator) formed from ringed topological lines, which create a slit-like raster, and is a universal Fourier transformer that harmonizes the amplitude, phase, frequency and polarization vector of external technogenic radiation and the BO's own EM radiation. The transformation of external radiation occurs in accordance with the Fourier transform with the formation of a coherent matrix of EM wave superpositions. The coherent matrix does not conflict with the BO. The transformation does not affect the functioning of the technical devices. The coherent transformer can be placed on the BO, or between the BO and the source.

The present disclosure is directed to a system and method modulating targeted neural and non-neural tissue of a nervous system for the treatment of head-and-face pain. Electrical stimulation is delivered transcutaneously to the treatment site that modulates the targeted neural- and non-neural tissue of the nervous structure, inhibiting nervous signaling and the perception of pain.

The present disclosure is directed to a system and method modulating targeted neural and non-neural tissue of a nervous system for the treatment of head-and-face pain. Electrical stimulation is delivered transcutaneously to the treatment site that modulates the targeted neural- and non-neural tissue of the nervous structure, inhibiting nervous signaling and the perception of pain.

Disclosed are a body contouring device using RF energy, a control method thereof, and a body contouring method using the same, in which a surface of tissue overheated due to the edge effect is selectively cooled while the tissue is heated with the RF energy transferred thereto, thereby having a uniform treatment effect on a treatment area, reducing pain, and preventing the tissue from being damaged.

Disclosed are a body contouring device using RF energy, a control method thereof, and a body contouring method using the same, in which a surface of tissue overheated due to the edge effect is selectively cooled while the tissue is heated with the RF energy transferred thereto, thereby having a uniform treatment effect on a treatment area, reducing pain, and preventing the tissue from being damaged.

A remedial signal for potentially harmful radiation that is emitted by a portable electronic battery powered communication device is implemented directly within the handset of the portable communication device the portable communication device is operated by a microprocessor and the remedial signal module is controlled by an algorithm in the microprocessor wherein the algorithm obtains information concerning radio frequency communications associated with the portable telecommunications device from the transceivers of the device.

A remedial signal for potentially harmful radiation that is emitted by a portable electronic battery powered communication device is implemented directly within the handset of the portable communication device the portable communication device is operated by a microprocessor and the remedial signal module is controlled by an algorithm in the microprocessor wherein the algorithm obtains information concerning radio frequency communications associated with the portable telecommunications device from the transceivers of the device.

The present disclosure relates to apparatuses and methods for treating neurological disorders by electro-stimulation. In some embodiments, the apparatus includes a stimulation module configured to generate a stimulation signal to be sent to at least one implantable electrode, and an acquisition module configured to acquire a signal measured by the at least one implantable electrode from a patient. The acquisition module may include a front-end block configured to amplify a potential difference of input signals (V1a, V2a) received by the acquisition module and to filter a stimulus artifact by cutting off frequencies above a predefined frequency band. The front-end block may include a multi-stage fully-differential switched capacitor circuit configured for discrete-time signal processing.

The present disclosure relates to apparatuses and methods for treating neurological disorders by electro-stimulation. In some embodiments, the apparatus includes a stimulation module configured to generate a stimulation signal to be sent to at least one implantable electrode, and an acquisition module configured to acquire a signal measured by the at least one implantable electrode from a patient. The acquisition module may include a front-end block configured to amplify a potential difference of input signals (V1a, V2a) received by the acquisition module and to filter a stimulus artifact by cutting off frequencies above a predefined frequency band. The front-end block may include a multi-stage fully-differential switched capacitor circuit configured for discrete-time signal processing.