Sensor for contactless electrocardiographic measurement

What is claimed is: 1. A contactless electrocardiographic sensor, comprising: a carrier for mounting to an object; an electrode attached to the carrier; a pressure sensor disposed to detect pressure between the electrode and the carrier; and a moisture sensor and a temperature sensor mounted to at least one of the carrier and the electrode and adjacent to at least one opening in the electrode. 2. The sensor of claim 1 , further comprising a processing unit receiving information generated by the pressure sensor, the moisture sensor, and the temperature sensor, and filtering a measurement signal registered by the electrode based on the information. 3. The sensor of claim 2 , wherein the processing unit utilizes the information to at least one of: a) eliminate an undesired component of the measurement signal; b) compensate for an undesired component of the measurement signal; c) highlight a desired component of the measurement signal; and d) adapt transfer properties of subsequent signal processing. 4. The sensor of claim 1 , further comprising an acceleration sensor. 5. The sensor of claim 1 , wherein the pressure sensor supports the electrode on the carrier. 6. The sensor of claim 1 , wherein the moisture sensor is adjacent to a first opening in the electrode and the temperature sensor is adjacent to a second opening in the electrode. 7. A contactless electrocardiographic sensor, comprising: a carrier for mounting to a seat; an electrode for registering a measurement signal; a pressure sensor supporting the electrode on the carrier; a moisture sensor and a temperature sensor mounted to the carrier adjacent to at least one opening in the electrode; and a processing unit filtering information generated by the pressure sensor, the moisture sensor, and the temperature sensor, based on the information. 8. The sensor of claim 7 , wherein the processing unit utilizes the information to at least one of: a) eliminate an undesired component of the measurement signal; b) compensate for an undesired component of the measurement signal; c) highlight a desired component of the measurement signal; and d) adapt transfer properties of subsequent signal processing. 9. The sensor of claim 7 , further comprising an acceleration sensor. 10. The contactless electrocardiographic sensor of claim 7 , wherein the moisture sensor is adjacent to a first opening in the electrode and the temperature sensor is adjacent to a second opening in the electrode. 11. A seat for a motor vehicle having a sensor array for contactless electrocardiographic measurement, the sensor array comprising: a carrier mounted to the seat; an electrode for registering a measurement signal; a pressure sensor supporting the electrode relative to the carrier; a moisture sensor and a temperature sensor mounted to the carrier adjacent to at least one opening in the electrode to detect conditions adjacent to a measuring surface of the electrode; and a processing unit receiving information generated by the pressure sensor, the moisture sensor, and the temperature sensor, and filtering the measurement signal based on the information. 12. The seat of claim 11 , wherein the processing unit utilizes the information to at least one of: a) eliminate an undesired component of the measurement signal; b) compensate for an undesired component of the measurement signal; c) highlight a desired component of the measurement signal; and d) adapt transfer properties of subsequent signal processing. 13. The seat of claim 11 , wherein the sensor array further comprises an acceleration sensor mounted to at least one of the carrier and the electrode, and the processing unit further receives information generated by the acceleration sensor. 14. The seat of claim 11 , wherein the moisture sensor is adjacent to a first opening in the electrode and the temperature sensor is adjacent to a second opening in the electrode.