Real-time structural measurement (RTSM) for control devices

The invention claimed is: 1. A system to measure in real-time dynamic displacements of structures relative to a reference, the system comprising: one or more axial elements installed and pre-stressed between two connection points of a flexible structure having a base; and a rotation measuring sensor configured to measure rotation between a reference of the structure and the axial elements, wherein the measuring sensor is placed at a fixed-to-the-base connection or alternatively at a fixed-to-the structure connection which forms the connection points of the axial elements to the structure, to obtain a relative displacement between the reference and the axial elements, measured in perpendicular direction to the axial elements, and obtained by multiplying a length of the axial elements by a tangent function of the measured rotation φ between the reference and the axial elements, wherein the relative displacement obtained can be used in controlling structural vibrations due to natural causes selected from the group consisting of earthquakes, wind, sea waves, and human generated actions through machines, people movement, vehicles, explosions, or other sources, wherein the system further comprises another axial element, also pre-stressed and installed between another two connection points of the flexible structure wherein one of said another two connection points is selected to be a node of a higher mode of the structure, to filter the contribution of this higher mode in the measured displacement. 2. The system according to claim 1 , further comprising displacement sensors between the axial elements and the flexible structure to obtain a displacement shape of the structure at discrete points by measuring the relative structural displacements perpendicular to the axial element. 3. The system according to claim 1 , comprising two or more pre-stressed axial elements to measure more than one relative displacement between two points of the flexible structure where one of the two points is a modal node in the flexible structure to identify independent modal contributions to the obtained displacement. 4. The system according to claim 1 , wherein two or more axial elements are installed in the flexible structure for measuring the rotational motions, rocking motions, or any other differential motions of the structure. 5. The system according to claim 1 , wherein the same axial element measures displacement in two principal directions of the structure using a bi-directional or spherical hinge of the axial element where one or more sensors are installed to measure displacements in the two principal directions of a structure. 6. The system according to claim 1 , wherein the measuring sensor to obtain the relative displacement between the reference and the axial pre-stressed elements is a displacement sensor selected from the group consisting of a laser sensor, a potentiometer, an inclinometer, an accelerometer used as an inclinometer, a gyrocompass, a gyroscope, and other sensors used to measure rotations. 7. The system according to claim 1 , wherein the axial elements are materialized as a lamella of carbon fibre or any other material with similar physical properties that minimize perturbations introduced into the measurements by natural vibrations of the axial elements and attain similar or better signal-to-noise ratios. 8. The system according to claim 1 , wherein the fixed-to-the-base connection and the fixed-to-the-structure connection for the axial elements, connects to points of the flexible structure, capable of allowing rotations of the axial elements. 9. The system according to claim 8 , wherein other types of connections that allow rotations of the axial elements to the structure are used. 10. The system according to claim 1 , further comprising a metallic grip system used to anchor the axial elements. 11. The system according to claim 10 , wherein other types of anchorage systems of axial elements are used. 12. Use of the system for measuring relative dynamic structural displacements according to claim 1 , for being used in any type of buildings, planes, ships, trains, automobiles, bridges, towers, chimneys, industrial structures, equipment, lifelines, any kind of machinery, and others. 13. Use of the system for measuring relative dynamic structural displacements according to claim 12 , for real-time active and semi-active structural vibration control caused by natural or human induced structural vibrations. 14. Use of the system for measuring relative dynamic or static structural displacements according to claim 12 , for structural health monitoring, system identification, or others than vibration control of an active or semi-active vibration control device.