摘要:
Nuclear Magnetic Resonant Imaging (also called Magnetic Resonant Imaging or “MRI”) devices which are implantable, internal or insertable are provided. The disclosure describes ways to miniaturize, simplify, calibrate, cool, and increase the utility of MRI systems for structural investigative purposes, and for biological investigation and potential treatment. It teaches use of target objects of fixed size, shape and position for calibration and comparison to obtain accurate images. It further teaches cooling of objects under test by electrically conductive leads or electrically isolated leads; varying the magnetic field of the probe to move chemicals or ferrous metallic objects within the subject. The invention also teaches comparison of objects using review of the frequency components of a received signal rather than by a pictorial representation.
摘要:
A method of and system for vessel authentication and location validation. The method includes detecting a radio transmission from a target vessel in a vessel control area; determining a time and date of the radio transmission; generating a triangulated geographical location of the radio transmission; extracting a maritime mobile service identity from the radio transmission; extracting from the radio transmission a frequency, a power level and a waveform of the radio transmission; and authenticating or not authenticating the target vessel based on the triangulated geographical location and one or more of the frequency of the radio transmission, the power level of the radio transmission and the waveform of the radio transmission.
摘要:
Nuclear Magnetic Resonant Imaging (also called Magnetic Resonant Imaging or “MRI”) devices which are implantable, internal or insertable are provided. The disclosure describes ways to miniaturize, simplify, calibrate, cool, and increase the utility of MRI systems for structural investigative purposes, and for biological investigation and potential treatment. It teaches use of target objects of fixed size, shape and position for calibration and comparison to obtain accurate images. It further teaches cooling of objects under test by electrically conductive leads or electrically isolated leads; varying the magnetic field of the probe to move chemicals or ferrous metallic objects within the subject. The invention also teaches comparison of objects using review of the frequency components of a received signal rather than by a pictorial representation.
摘要:
A method of comparing micro-electronic devices. The method includes: placing a first micro-electronic device in a sample chamber of a magnetic resonance imaging machine, subjecting the first micro-electronic device to a magnetic field and a radio frequency pulse, turning off or adjusting the magnetic field and detecting a first returned RF pulse from the first micro-electronic device and storing first data relating to the first returned RF pulse; placing a second micro-electronic device in the sample chamber, subjecting the second micro-electronic device to the magnetic field and the radio frequency pulse, turning off or adjusting the magnetic field and detecting a second returned RF pulse from the second micro-electronic device and storing second data relating to the second returned RF pulse; and comparing the first data to the second data and determining if the second micro-electronic device is essentially identical to the first micro-electronic device based on the comparing.
摘要:
Methods and a palpation device. A subject pose determining method includes placing a subject onto a surface of a platform having a first radio-frequency transceiver and a second radio-frequency transceiver. The subject is a human being. A first radio-frequency transponder is placed onto an upper extremity of the subject. A second radio-frequency transponder is placed onto a lower extremity of the subject. A first signal is transmitted from the first transceiver to the first transponder, resulting in the first transponder sending a second signal. A third signal is transmitted from the second transceiver to the second transponder, resulting in the second transponder sending a fourth signal. The second signal is received by the first transceiver. The fourth signal is received by the second transceiver. A pose of the subject is determined based on receiving the second signal and the fourth signal. A palpation device and method are also included.
摘要:
Nuclear Magnetic Resonant Imaging (also called Magnetic Resonant Imaging or “MRI”) devices which are implantable, internal or insertable are provided. The disclosure describes ways to miniaturize, simplify, calibrate, cool, and increase the utility of MRI systems for structural investigative purposes, and for biological investigation and potential treatment. It teaches use of target objects of fixed size, shape and position for calibration and comparison to obtain accurate images. It further teaches cooling of objects under test by electrically conductive leads or electrically isolated leads; varying the magnetic field of the probe to move chemicals or ferrous metallic objects within the subject. The invention also teaches comparison of objects using review of the frequency components of a received signal rather than by a pictorial representation.
摘要:
A method of and system for vessel authentication and location validation. The method includes detecting a radio transmission from a target vessel in a vessel control area; determining a time and date of the radio transmission; generating a triangulated geographical location of the radio transmission; extracting a maritime mobile service identity from the radio transmission; extracting from the radio transmission a frequency, a power level and a waveform of the radio transmission; and authenticating or not authenticating the target vessel based on the triangulated geographical location and one or more of the frequency of the radio transmission, the power level of the radio transmission and the waveform of the radio transmission.
摘要:
An antenna for radiating and/or receiving signals. The antenna includes (i) a first hollow and helical pipe, (ii) a second hollow and helical pipe, (iii) a first transmission wire, (iv) a second transmission wire, and (v) a dielectric connector. The dielectric connector physically couples to the first hollow and helical pipe and the second hollow and helical pipe. The first hollow and helical pipe and the second hollow and helical pipe comprise an electrically conductive material. The first transmission wire comprises a first portion and a second portion. The second transmission wire comprises a third portion and a fourth portion. The first portion of the first transmission wire and the third portion of the second transmission wire are inside the first hollow and helical pipe.
摘要:
A computer hardware-implemented method, system, and/or computer program product determines an applicability of a data privacy regulation when transmitting data used with an enterprise project. A data privacy regulation describes regulatory restrictions on data being transmitted from a first geopolitical entity to a second geopolitical entity. A set of categorized data is used by an enterprise project, and the data privacy regulation establishes limitations on a transmission of at least one category of data, from the set of categorized data, from the first geopolitical entity to the second geopolitical entity. A first set of binary data and a second set of binary data are processed to determine if transmission of said at least one category of data from the first geopolitical entity to the second geopolitical entity is regulated by the data privacy regulation.
摘要:
Nuclear Magnetic Resonant Imaging (also called Magnetic Resonant Imaging or “MRI”) devices which are implantable, internal or insertable are provided. The disclosure describes ways to miniaturize, simplify, calibrate, cool, and increase the utility of MRI systems for structural investigative purposes, and for biological investigation and potential treatment. It teaches use of target objects of fixed size, shape and position for calibration and comparison to obtain accurate images. It further teaches cooling of objects under test by electrically conductive leads or electrically isolated leads; varying the magnetic field of the probe to move chemicals or ferrous metallic objects within the subject. The invention also teaches comparison of objects using review of the frequency components of a received signal rather than by a pictorial representation.