Abstract: A configuration for use with a processor that incorporates a suite of agents in a “flat” hardware architecture and superimposes thereon a self-forming, self-healing, hierarchical architecture implemented in software. Embodiments may be employed in various applications, such as maintaining network integrity. In one embodiment a building security monitoring network provides for automated network agents to each be capable of communication with any other automated agents on a network at network startup. Shortly after network initialization, the software architecture is superimposed on the flat hardware architecture, re-arranging communication links to provide an efficient hierarchy of control and substituting working agents for compromised agents as necessary in the network. All of this is done in a “live” network, not requiring shutdown, or even reduced operation to accomplish.

Abstract: A device and method to nondestructively measure bulk stress in a member by employing an acoustic source, preferably an ultrasonic source, a processor, and a uniquely configured acoustic sensor package. The sensor package is configured to transmit both a longitudinal wave signal and a shear wave signal into the member. The processor is configured to capture reflections of the two impressed signals along a principal stress axis of the member and calculate the roundtrip time of the two signals. Knowing the length of the member along a principal stress axis, from the roundtrip times of the two signals, two velocities are calculated. By employing an equation that calculates bulk stress as a function of these shear and longitudinal wave velocities, a measure of bulk stress is calculated via the processor. The device measures bulk stress of a member that offers limited access in its permanent installation, such as dam reinforcements.

Abstract: An acoustically operated burner control system for optimally controlling a flow of air and fuel into a flame producing combustion burner throughout a range of firing rates is disclosed. The system includes separate valve assemblies for modulating the flow of air and fuel into a burner, a microphone for generating an electrical signal indicative of the intensity of all sounds generated by the combustion flame having a frequency in excess of about 10 Khz, and a controller including a programmable microprocessor electrically connected to both the air and fuel valve assemblies and the microphone. The system further includes a wave guide for remotely acoustically coupling the microphone to the combustion flame in order to isolate the microphone from both heat and corrosive combustion products. Prior to the operation of the system, empirically-derived sound intensities associated with optimum stoichiometric combustion and minimum pollution are entered into the memory of the microprocessor.

Abstract: A device for acquiring and displaying acoustic emission fatigue data so as to facilitate the interpretation of dynamic micromechanical failure processes in materials. The load on a specimen under cyclic loading is monitored by a load cell whose output is sent to a cycle counter. The specimen is also monitored by a transducer which senses acoustic emissions. The signal produced by the transducer passes through a preamplifier, filter, amplifier and threshold detector to a pulse generator whose output is connected to the intensity modulation input of an oscilloscope or other cartesian coordinate arraying device. The load cell output is also connected to the vertical deflection input of the oscilloscope. The counter output is connected to the horizontal deflection input of the oscilloscope.