Device and method for determining a state of an object which is to be monitored

What is claimed is: 1. A device for ascertaining a state of an object to be monitored, comprising: a magnetometer designed to acquire a magnetic field and to provide a first measurement value as a function of the acquired magnetic field; an acceleration sensor designed to acquire an acceleration and to provide a second measurement value as a function of the acquired acceleration; and a processing device designed to determine, from a plurality of predefined states, a state of the object to be monitored using measurement values provided by at least one of the magnetometer and by the acceleration sensor, wherein: the processing device controls the magnetometer and the acceleration sensor in such a way that the processing device activates only one of the two and deactivates the other, as soon as the processing device detects a possible change in state, the processing device activates the other one, and the processing device determines from a current state of the object which state transition is allowed from the current state and which state transition is not allowed from the current state. 2. The device as recited in claim 1 , further comprising: a memory to store a state determined by the processing device and to store measurement values, corresponding to the determined state of the object, from the at least one of the magnetometer and the acceleration sensor. 3. The device as recited in claim 2 , wherein the processing device determines the state of the object to be monitored using states stored in the memory and corresponding measurement values. 4. The device as recited in claim 1 , further comprising: a communication interface designed to transmit the state determined by the processing device. 5. The device as recited in claim 4 , wherein the communication interface is designed to wirelessly transmit the state determined by the processing device. 6. The device as recited in claim 1 , wherein the object to be monitored is a door or a window. 7. The device as recited in claim 1 , wherein the processing device includes a first input for receiving an output signal containing a measurement value from the magnetometer and a second input for receiving an output signal containing a measurement value from the acceleration sensor. 8. A building management system including a device for ascertaining the state of an object to be monitored, the device comprising: a magnetometer designed to acquire a magnetic field and to provide a first measurement value as a function of the acquired magnetic field; an acceleration sensor designed to acquire an acceleration and to provide a second measurement value as a function of the acquired acceleration; and a processing device designed to determine, from a plurality of predefined states, a state of the object to be monitored using measurement values provided by at least one of the magnetometer and by the acceleration sensor, wherein: the processing device controls the magnetometer and the acceleration sensor in such a way that the processing device activates only one of the two and deactivates the other, as soon as the processing device detects a possible change in state, the processing device activates the other one, and the processing device determines from a current state of the object which state transition is allowed from the current state and which state transition is not allowed from the current state. 9. The building management system as recited in claim 8 , wherein the processing device includes a first input for receiving an output signal containing a measurement value from the magnetometer and a second input for receiving an output signal containing a measurement value from the acceleration sensor. 10. A method for ascertaining a state of an object to be monitored, comprising: acquiring, through a magnetometer, a magnetic field and providing of a first measurement value corresponding to the acquired magnetic field; acquiring, through an accelerometer, an acceleration of the object to be monitored and providing a second measurement value corresponding to the acquired acceleration; determining a state of the object to be monitored from a plurality of predefined states using at least one of the first measurement value corresponding to the acquired magnetic field and the second measurement value corresponding to the acquired acceleration; controlling the magnetometer and the acceleration sensor in such a way only one of the two is activated and the other is deactivated; as soon a possible change in state is detected, the other one is activated; and determining from a current state of the object which state transition is allowed from the current state and which state transition is not allowed from the current state. 11. The method as recited in claim 10 , wherein the determining the state includes calculating a probability for each predefined state and determining the state having a highest probability. 12. The method as recited in claim 10 , further comprising: receiving an output signal containing a measurement value from the magnetometer; and receiving an output signal containing a measurement value from the acceleration sensor.