A terminal acquires measurement values from a plurality of sensors that sense a measurement target with measurement levels set therein and controls the sensors. The terminal includes: an acquisition unit configured to acquire the measurement values from the sensors; a measurement value determination unit configured to determine whether a first measurement value acquired from a first sensor among the sensors exceeds a predetermined threshold; a validity determination unit configured to determine validity of the first measurement value on the basis of measurement values acquired from other sensors when it is determined that the first measurement value exceeds the predetermined threshold; a measurement level determination unit configured to determine that the measurement level of the first sensor is to be raised when it is determined that the first measurement value is valid; and an instruction unit configured to transmit instruction information for changing the measurement level of the first sensor.

A terminal acquires measurement values from a plurality of sensors that sense a measurement target with measurement levels set therein and controls the sensors. The terminal includes: an acquisition unit configured to acquire the measurement values from the sensors; a measurement value determination unit configured to determine whether a first measurement value acquired from a first sensor among the sensors exceeds a predetermined threshold; a validity determination unit configured to determine validity of the first measurement value on the basis of measurement values acquired from other sensors when it is determined that the first measurement value exceeds the predetermined threshold; a measurement level determination unit configured to determine that the measurement level of the first sensor is to be raised when it is determined that the first measurement value is valid; and an instruction unit configured to transmit instruction information for changing the measurement level of the first sensor.

A terminal acquires measurement values from a plurality of sensors that sense a measurement target with measurement levels set therein and controls the sensors. The terminal includes: an acquisition unit configured to acquire the measurement values from the sensors; a measurement value determination unit configured to determine whether a first measurement value acquired from a first sensor among the sensors exceeds a predetermined threshold; a validity determination unit configured to determine validity of the first measurement value on the basis of measurement values acquired from other sensors when it is determined that the first measurement value exceeds the predetermined threshold; a measurement level determination unit configured to determine that the measurement level of the first sensor is to be raised when it is determined that the first measurement value is valid; and an instruction unit configured to transmit instruction information for changing the measurement level of the first sensor.

A terminal acquires measurement values from a plurality of sensors that sense a measurement target with measurement levels set therein and controls the sensors. The terminal includes: an acquisition unit configured to acquire the measurement values from the sensors; a measurement value determination unit configured to determine whether a first measurement value acquired from a first sensor among the sensors exceeds a predetermined threshold; a validity determination unit configured to determine validity of the first measurement value on the basis of measurement values acquired from other sensors when it is determined that the first measurement value exceeds the predetermined threshold; a measurement level determination unit configured to determine that the measurement level of the first sensor is to be raised when it is determined that the first measurement value is valid; and an instruction unit configured to transmit instruction information for changing the measurement level of the first sensor.

The invention relates to a method for preparing lead (212) for medical use. This method comprises the production of lead (212) by the decay of radium (224) in a generator comprising a solid medium to which the radium (224) is bound, followed by the extraction of the lead (212) from the generator in the form of an aqueous solution A1, characterised in that the lead (212) contained in the aqueous solution A1 is purified from the radiological and chemical impurities, also contained in said aqueous solution, by a liquid chromatography on a column. The invention also relates to an apparatus specially designed for automated implementation in a closed system of said method. It further relates to lead (212) produced by means of this method and this apparatus. Applications: manufacture of radiopharmaceuticals based on lead (212), useful in nuclear medicine for the treatment of cancers, particularly by a-radioimmunotherapy, or for medical imaging, in both humans and animals.

A torque detecting apparatus includes a first shaft; a second shaft; an elastic member coaxially linking the first and second shafts; and a magnet attached to the first shaft; a pair of magnetic yokes composed of a first magnetic yoke and a second magnetic yoke, the first and second magnetic yokes being fixedly installed on the second shaft; and a magnetic sensor. Each magnetic yoke includes an opposing portion and a wall portion. The opposing portion is opposed to the magnet and displaced circumferentially relatively to the magnet when the elastic member is subjected to a torsional displacement. The wall portions of the first and second magnetic yokes are separated and positioned outside the opposing portions in the radial direction. The wall portions of the first and second magnetic yokes extend to be mutually opposed. The magnetic sensor is positioned between the wall portions.

A torque detecting apparatus includes a first shaft; a second shaft; an elastic member coaxially linking the first and second shafts; and a magnet attached to the first shaft; a pair of magnetic yokes composed of a first magnetic yoke and a second magnetic yoke, the first and second magnetic yokes being fixedly installed on the second shaft; and a magnetic sensor. Each magnetic yoke includes an opposing portion and a wall portion. The opposing portion is opposed to the magnet and displaced circumferentially relatively to the magnet when the elastic member is subjected to a torsional displacement. The wall portions of the first and second magnetic yokes are separated and positioned outside the opposing portions in the radial direction. The wall portions of the first and second magnetic yokes extend to be mutually opposed. The magnetic sensor is positioned between the wall portions.

A torque detecting apparatus includes a first shaft; a second shaft; an elastic member coaxially linking the first and second shafts; and a magnet attached to the first shaft; a pair of magnetic yokes composed of a first magnetic yoke and a second magnetic yoke, the first and second magnetic yokes being fixedly installed on the second shaft; and a magnetic sensor. Each magnetic yoke includes an opposing portion and a wall portion. The opposing portion is opposed to the magnet and displaced circumferentially relatively to the magnet when the elastic member is subjected to a torsional displacement.

The wall portions of the first and second magnetic yokes are separated and positioned outside the opposing portions in the radial direction. The wall portions of the first and second magnetic yokes extend to be mutually opposed. The magnetic sensor is positioned between the wall portions.

A torque detecting apparatus includes a first shaft; a second shaft; an elastic member coaxially linking the first and second shafts; and a magnet attached to the first shaft; a pair of magnetic yokes composed of a first magnetic yoke and a second magnetic yoke, the first and second magnetic yokes being fixedly installed on the second shaft; and a magnetic sensor. Each magnetic yoke includes an opposing portion and a wall portion. The opposing portion is opposed to the magnet and displaced circumferentially relatively to the magnet when the elastic member is subjected to a torsional displacement.

The wall portions of the first and second magnetic yokes are separated and positioned outside the opposing portions in the radial direction. The wall portions of the first and second magnetic yokes extend to be mutually opposed. The magnetic sensor is positioned between the wall portions.