A cosmic resonator is designed and constructed to trap the cosmic waves acting as a quantum trap the upper half of which is to absorb and the lower half is increase resonance and to increase the durability of input cosmic waves. The enhanced cosmic waves within the pyramid are used to load vitality force information on water or any water-based creature or matter with direct human exposure to cosmic waves and indirect gain with consumption of cosmic energetic products that are exposed to the waves to improve physical and mental health of humans.

A cosmic resonator is designed and constructed to trap the cosmic waves acting as a quantum trap the upper half of which is to absorb and the lower half is increase resonance and to increase the durability of input cosmic waves. The enhanced cosmic waves within the pyramid are used to load vitality force information on water or any water-based creature or matter with direct human exposure to cosmic waves and indirect gain with consumption of cosmic energetic products that are exposed to the waves to improve physical and mental health of humans.

An article shield apparatus adapted to protectively encompass an article, the apparatus including a first flexible surrounding sidewall that acts as a protective cover, a second flexible surrounding sidewall that is nested within the first flexible surrounding sidewall, the second surrounding sidewall functions as a radio frequency shield, in addition, a third flexible surrounding sidewall that is nested within the second surrounding sidewall with the third surrounding sidewall being constructed with from a waterproof material, wherein the third surrounding sidewall holds the article thus resulting in operationally the article being substantially protected from water and radio frequency waves.

An article shield apparatus adapted to protectively encompass an article, the apparatus including a first flexible surrounding sidewall that acts as a protective cover, a second flexible surrounding sidewall that is nested within the first flexible surrounding sidewall, the second surrounding sidewall functions as a radio frequency shield, in addition, a third flexible surrounding sidewall that is nested within the second surrounding sidewall with the third surrounding sidewall being constructed with from a waterproof material, wherein the third surrounding sidewall holds the article thus resulting in operationally the article being substantially protected from water and radio frequency waves.

A communication device that emits radio frequency signals having a module to determine when the radio frequency signals may be present and are potentially harmful, and to activate a remedial signal generator if the radio frequency signals are considered to be potentially harmful; and the power to operate the module is from a power source that can be charged using wireless charging techniques.

A system for validating safety of a medical device in a presence of a magnetic resonance imaging (MRI) field is provided. The system includes a first electric field generating device configured to form first electric field and configured to receive a medical device at least partially within the first electric field, and a second electric field generating device configured to form a second electric field in proximity to the first electric field and configured to receive the medical device at least partially within the second electric field. One or more processors are configured to execute program instructions to calculate predicted parameter values of the medical device based on a transfer function, the transfer function defined to predict a safety characteristic of the medical device when in the presence of an MRI field, obtain measured parameter values from the medical device, the measured parameter values indicative of the safety characteristic of the medical device when exposed to the first and second electric fields, and compare the measured parameter values to the predicted parameter values in connection with validating the transfer function.

Disclosed herein are apparatuses and methods for treating neurological disorders by electro-stimulation. The apparatus (10) for treating neurological disorders includes at least one electrode (12) implantable in the brain of a patient, and a processing and stimulation device (14) connected to the at least one electrode (12). The processing and stimulation device (14) may include a stimulation module (16) configured to generate a stimulation signal to be sent to the at least one electrode (12), and an acquisition module (20) that measures cerebral activity coming from the brain of the patient. The acquisition module (20) may have a front-end block (27) configured to amplify the potential difference of its input signals (V.sub.1a, V.sub.2a) and to filter a stimulus artifact and may include a multi-stage fully-differential switched capacitor circuit (e.g., an integrated circuit) configured for discrete-time signal processing.

Disclosed herein are apparatuses and methods for treating neurological disorders by electro-stimulation. The apparatus (10) for treating neurological disorders includes at least one electrode (12) implantable in the brain of a patient, and a processing and stimulation device (14) connected to the at least one electrode (12). The processing and stimulation device (14) may include a stimulation module (16) configured to generate a stimulation signal to be sent to the at least one electrode (12), and an acquisition module (20) that measures cerebral activity coming from the brain of the patient. The acquisition module (20) may have a front-end block (27) configured to amplify the potential difference of its input signals (V.sub.1a, V.sub.2a) and to filter a stimulus artifact and may include a multi-stage fully-differential switched capacitor circuit (e.g., an integrated circuit) configured for discrete-time signal processing.

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.