Abstract: A micromovement measuring device records creeping and dynamic infraprocesses both of natural and artificial origin, including seismic processes or infrasound and gravitational waves. The device has a sensitivity for measuring in a wide dynamic range. The device includes a measuring element, a sensitive element, a membrane, a signal conditioner, a fixing electromagnet, and a pulling electromagnet. The pulling electromagnet is located on the membrane which increases the range of the measurable movements. A hermetic housing prevents the formation of oxides or similar films at the working surfaces of the measuring and sensitive elements. A method of converting movement to electric signals is performed by the device, which takes an electronic field emission current to be a characteristic of quantization, and so movements in the range of Angstroms may be recorded.

Abstract: A micromovement measuring device records creeping and dynamic infraprocesses both of natural and artificial origin, including seismic processes or infrasound and gravitational waves. The device has a sensitivity for measuring in a wide dynamic range. The device includes a measuring element, a sensitive element, a membrane, a signal conditioner, a fixing electromagnet, and a pulling electromagnet. The pulling electromagnet is located on the membrane which increases the range of the measurable movements. A hermetic housing prevents the formation of oxides or similar films at the working surfaces of the measuring and sensitive elements. A method of converting movement to electric signals is performed by the device, which takes an electronic field emission current to be a characteristic of quantization, and so movements in the range of Angstroms may be recorded.

Abstract: A micromovement measuring device records creeping and dynamic infraprocesses both of natural and artificial origin, including seismic processes or infrasound and gravitational waves. The device has a sensitivity for measuring in a wide dynamic range. The device includes a measuring element, a sensitive element, a membrane, a signal conditioner, a fixing electromagnet, and a pulling electromagnet. The pulling electromagnet is located on the membrane which increases the range of the measurable movements. A hermetic housing prevents the formation of oxides or similar films at the working surfaces of the measuring and sensitive elements. A method of converting movement to electric signals is performed by the device, which takes an electronic field emission current to be a characteristic of quantization, and so movements in the range of Angstroms may be recorded.

Abstract: The invention relates to the field of micromovement measuring and can be used for recording creeping and dynamic infraprocesses both of natural and artificial origin, for example, seismic processes or infrasound and gravitation waves. The object of the invention is to raise sensitivity of measuring in a wide dynamic range. The micromovement measuring device consists of measuring element (2) and sensitive element (1), membrane (10), signal conditioner (6), the output of which is connected to the winding og the fixing electromagnet (4). According to the invention, the device is additionally provided with the pulling electromagnet (5), which interacts with the measuring element (2), the winding og the pulling electromagnet being connected to the second inverse output of the signal conditioner (6). The pulling electromagnet shall be preferably located on the membrane (10) that increases the range of the measurable movements.

Abstract: A system and method for collecting biomedical information from a patient. A data measurement component including at least one sensing component is provided, the sensing component providing signals representing sensed patient data to a communications port, the communications port to allow connection to a computer system through a computer system communications port. A remote server includes one or more specialized software modules, which are capable of communicating with the data measurement component through the computer system communications port. The remote server, upon receiving a request from the computer system, will transmit one of the specialized software modules which is appropriate for collecting and interpreting the signals representing sensed patient data from the at least one sensing component. The specialized software module sent by the remote server, after it is received by the computer system, initializes and controls the operation of the data measurement components.

Abstract: A system and method for collecting biomedical information from a patient. A data measurement component including at least one sensing component is provided, the sensing component providing signals representing sensed patient data to a communications port, the communications port to allow connection to a computer system through a computer system communications port. A remote server includes one or more specialized software modules, which are capable of communicating with the data measurement component through the computer system communications port. The remote server, upon receiving a request from the computer system, will transmit one of the specialized software modules which is appropriate for collecting and interpreting the signals representing sensed patient data from the at least one sensing component. The specialized software module sent by the remote server, after it is received by the computer system, initializes and controls the operation of the data measurement components.