Electronic combined load weak link

The invention claimed is: 1. A safety device for protection of the integrity of well barrier(s) or other interfacing structure(s) at an end of a riser string or a hose, the safety device comprising a releasable connection in the riser string or hose, the releasable connection arranged to release or disconnect during given predefined conditions in order to protect the well barrier(s) or other interfacing structure(s), wherein the safety device comprises: at least one sensor to monitor at least one of tension loads, bending loads, internal pressure loads and temperature, where said at least one sensor is arrangeable on a segment of the riser or hose, and where said at least one sensor is adapted to provide measured data relating to at least one of tension loads, bending loads, internal pressure loads and temperature, an electronic processing unit adapted to receive and interpret the measured data from said at least one sensor, an electronic, hydraulic or mechanical actuator or switch arranged to receive a signal from the electronic processing unit and initiate a release or disconnect of the releasable connection, wherein the electronic processing unit is configured to autonomously send the signal to the electronic, hydraulic or mechanical actuator or switch when the measured data is indicative of the given predefined conditions. 2. Safety device according to claim 1 , wherein said at least one sensor to monitor at least one of tension loads, bending loads, internal pressure loads and temperature is arranged close to the well barrier(s) or the end(s) of the riser string or hose in order to allow reliable measurements of riser string or hose bending moments or deflection angles. 3. Safety device according to claim 1 , wherein said at least one sensor to monitor at least one of tension loads, bending loads, internal pressure loads and temperature comprises any number and/or any combination of one or more of the following sensors or measuring devices: strain gauges potentiometers optic displacement sensors pressure gauges temperature gauges in order to ensure the reliability of the measured data. 4. Safety device according to claim 1 , wherein the electronic processing unit, if it receives measured data from a number of sensors providing overlapping results, comprises a voting system arranged to select what results to apply in order to ensure that only reliable results are interpreted by the system. 5. Safety device according to claim 1 , wherein the releasable connection comprises a split cam ring with a number of rotating connector dogs, where the releasable connection is arranged to hold together the flanges of two riser string or hose sections, and where the split cam ring of the releasable connection further comprises two or more hinges to close the split cam ring around the flanges, where one or more of the hinges comprises: 1) a removable locking pin so that the cam ring is split to release the grip on the connector dogs by removing the locking pin, or 2) a releasable latching mechanism so that the cam ring is split to release the grip on the connector dogs by opening the latch mechanism in one of the hinged elements of the cam ring. 6. Safety device according to claim 1 , wherein it comprises a disengagement mechanism to ensure disengagement of any control umbilical running along the riser string or hose and which needs to be disconnected together with the riser string to protect the integrity of the well barrier(s) or other interfacing structure(s), the disengagement mechanism comprising one or more of the following: an electrically activated over-center mechanism to release a spring loaded cutting tool, an electrically driven release of an energized cutting tool, a hydraulically driven cutting tool, a clamping device for securely clamping the umbilical to the riser string or hose, and furthermore arranged to tear off the umbilical when the riser string or hose is separated. 7. Safety device according to claim 1 , wherein the electronic processing unit is without any external power supply or control signals going into the electronic processing unit during operation. 8. Safety device according to claim 1 , wherein the electronic processing unit is arranged in the vicinity of the releasable connection and/or said at least one sensor. 9. Safety device according to claim 1 , wherein the electronic processing unit is arranged remotely from the releasable connection and/or said at least one sensor. 10. Safety device according to claim 1 , wherein the electronic processing unit is connected to an actuator mechanism which upon signal will trigger a disengagement of the releasable connection in the riser string or hose, wherein the actuator mechanism is one or more of: an electric switch, electric or magnetic release of a spring loaded over-center mechanism, electric or mechanical opening or closing of hydraulic valves to trigger a hydraulic release mechanism. 11. Safety device according to claim 1 , wherein the releasable connection comprises a number of connector dogs that hold the flange faces in the riser string together at a certain pretension level in order to provide the required seal pressure between the flange faces, and wherein the connector dogs are free to rotate in order to allow the flange faces to be pulled apart when the connector dogs are released, even under high loads. 12. Safety device according to claim 6 , wherein the locking pin and/or latching mechanism securing the split cam ring during nounal operation is energized using either a mechanical spring or a pressurized hydraulic unit, where the energy in the spring or hydraulic unit is arranged to be released by the actuator, causing the locking pin to be removed from the split cam ring, thereby causing the split cam ring to separate and disengage from the connector dogs. 13. Safety device according to claim 2 , wherein the electronic processing unit, if it receives measured data from a number of sensors providing overlapping results, comprises a voting system arranged to select what results to apply in order to ensure that only reliable results are interpreted by the system. 14. Safety device according to claim 3 , wherein the electronic processing unit, if it receives measured data from a number of sensors providing overlapping results, comprises a voting system arranged to select what results to apply in order to ensure that only reliable results are interpreted by the system. 15. Method for providing protection of the integrity of well barrier(s) or other interfacing structure(s) at an end of a riser string or a hose, the method comprising the step of providing a releasable connection in the riser string or hose, where the releasable connection is arranged to release or disconnect during given predefined conditions in order to protect the well barrier(s) or other interfacing structure(s), and where the releasable connection is provided between two riser string or hose sections or between the riser and any other part interfacing the riser string or hose, the method being wherein it further comprises the steps of: a) monitoring and measuring loads in the riser string or hose related to at least one of tension loads, bending loads, internal pressure loads and temperature, and providing measurement data, b) determining a combined load on the riser string or loading hose, and the well barrier(s) or other interfacing structure(s) to the riser string or hose on the basis of the measurement data using a processing unit, c) comparing the determined combined load based on the measurement data wit