ELECTRONIC SENSORS MEASURING MECHANICAL

Brand	Owner (click to sort)	Address	Description
MARPORT	AIRMAR TECHNOLOGY CORPORATION	35 Meadowbrook Drive Milford NH 03055	Electronic sensors for measuring mechanical, thermal, biological, [chemical, optical, and magnetic phenomena; ]echo sounders; sonars, visualization software, namely, computer software for use in analyzing sonar images; bridge computing and display instruments, namely, gauges to measure pitch, roll, heading, speed, distance, depth and echosounder images;MAR PORT;
SEEING WITH SOUND	AIRMAR TECHNOLOGY CORPORATION	35 Meadowbrook Drive Milford NH 03055	Electronic sensors for measuring mechanical, thermal, biological, chemical, optical, and magnetic phenomena; echo sounders; sonars, visualization software, namely, computer software for use in analyzing sonar images; bridge computing and display instruments, namely, gauges to measure pitch, roll, heading, speed, distance, depth and echosounder images;
SONARWAVE	Marport Canada Inc.	P.O. Box 13141 24 Topsail Beach Road Conception Bay South NLA1W2K1 Canada	Electronic sensors for measuring mechanical, thermal, biological, chemical, optical, and magnetic phenomena; echo sounders; sonars, visualization software, namely, computer software for use in analyzing sonar images; bridge computing and display instruments, namely, gauges to measure pitch, roll, heading, speed, distance, depth and echosounder images;SONAR WAVE;
	Where the owner name is not linked, that owner no longer owns the brand

Technical Examples

The invention relates to a device for determining the non precise placement of measuring sites on measuring sensors and for reducing measuring errors, which result from the movement between the measuring sites and the measuring sensors when measuring the most diverse quantities to be measured, with the aim of creating robust measuring systems for recording measured values under real or challenging conditions. The invention is characterized by: detecting whether and which sensor elements are covered and thus in contact with the site to be measured; tracking and/or adapting the sensor elements so that the contact is not interrupted even during movements, and; the resilient arrangement of the contacts for constantly maintaining the mechanical bearing pressure when measuring the electrical skin resistance. The measurement data are processed further by software that determines the area of contact from the signals from the device and from the knowledge of the arrangement of the measuring elements, and uses the completely covered sensor elements determined thereby in order to conduct measurements with the fewest possible number of errors.