Abstract: A system and method for workers' compensated risk analysis. The method comprising transmitting standard workers' compensation questions to a user device, receiving a response to the set of standard workers' compensation, selecting a set of supplemental questions based on the received responses to the set of standard workers' compensation questions and transmitted the set of supplemental questions to the user device, receiving a response to the set of supplemental questions and generating a risk score for workers' compensation insurance based on at least the responses to the standard questions and the supplemental questions.

Abstract: A synthesizer is disclosed and is digitally tuned and locked in a measured frequency. The synthesizer uses both the dual voltage control oscillator, each operating over less than an octave, in combination with the microwave doublers to produce a multi-octave RF output with low having low harmonics and free of spurious output signals thereon. The synthesizer uses a sampling downconverter that would, without the benefits of the present invention, produce an ambiguous IF output signal that is translated from the VCO microwave frequency. The ambiguity of the sampling downconverter is corrected by using in-phase and quadrature components of the IF output signal produced by the downconverter along with an Arc Tan to generate a series of digital phase data that is compared against a known reference to eliminate the ambiguity of the VCO frequency. The synthesizer further uses at least one clocking source having an output that is selectively filtered to avoid singularity problems normally plaguing downconverters.

Abstract: The Electronic Support Measure (ESM) system is disclosed having various embodiments all of which reduce or even eliminate the detrimental effects caused by interference signals commonly generated by CW emitters.

Abstract: A digitally tuned oscillator synthesizer having a correlator circuit and selectable voltage controlled oscillators is disclosed. The correlator circuit develops an accurate output which provides frequency stability for the synthesizer, whereas the voltage oscillators each operate over less than an octave of a desired RF frequency output, but cooperatively operate to produce RF outputs over a wide range of frequencies.

Abstract: An arrangement for accurately measuring the frequency of an RF signal is disclosed. The arrangement includes a coaxial delay line carrying the RF signal and a means for directly measuring the resistance of the coaxial delay line and which resistance measurement is directly correlatable to temperature changes of the coaxial delay line. The arrangement, in response to the changes in the temperature of the coaxial delay line, provides appropriate signals to compensate for the temperature changes in order to prevent any temperature changes from degrading the accuracy of the frequency measured by the arrangement.

Abstract: An arrangement for accurately measuring the frequency of an RF signal is disclosed. The arrangement includes a coaxial delay line carrying the RF signal and a means for directly measuring the resistance of the coaxial delay line and which resistance measurement is directly correlatable to temperature changes of the coaxial delay line. The arrangement, in response to the changes in the temperature of the coaxial delay line, provides appropriate signals to compensate for the temperature changes in order to prevent any temperature changes from degrading the accuracy of the frequency measured by the arrangement.

Abstract: A circuit arrangement and a method of use thereof are disclosed both for processing a serial stream of randomly occurring digital words to detect exact or similar words relative to digital words previously received. The circuit arrangement eliminates the unnecessary burden of a radar system from processing data normally caused by the reflection of an RF signal from a physical object. The circuit arrangement comprises means for truncating each received digital word to a predetermined most significant bit (MSB) resolution by dropping at least one least significant bit (LSB) at the right end of the received word. The truncated word serves as an exact word reference. The circuit arrangement further has means for examining the dropped least significant bit (LSB) and if it is a "logic 1", adding a "logic 1" to the truncated received digital word, and conversely, if it is a logic "0", subtracting "1" from the truncated word. The addition and subtraction forming a similar word reference.

Abstract: A circuit arrangement is disclosed that performs one or all of the functions selected from the group comprising (1) establishing a threshold level for detecting and encoding selected parameters of RF signals; (2) establishes a threshold level that corresponds to a signal-to-noise ratio (SNR) and which is used for detecting and encoding selected parameters of RF signals; and (3) determining the tangent angle of the received RF signals which is further used for measuring the frequency of the RF signal. The circuit arrangement comprises a microwave correlator including a power divider, a delay line, a quadrature coupler, and two multipliers. The circuit arrangement further comprises an RF amplifier, a bandpass filter, low pass filters, analog-to-digital converters, and preferably a PROM.

Abstract: A digital amplitude quantizer is disclosed having sequential stages each for measuring a selected portion of the overall range of the level of power of applied RF signals. Each of the sequential stages comprises a serial arrangement of a directional coupler, a detector, an amplifier, and an analog-to-digital converter. The directional coupler of each stage is activated when it receives a predetermined level of power of the applied RF signals. The sequential stages further comprise a series arrangement of PROMs and latches that are shared by adjacent stages. In operation, the RF amplifier in the uppermost or last stage is commonly driven into its limiting condition by appropriate RF signals. When the uppermost stage is nearly into its limiting operation, the directional coupler in the preceding stage receives a sufficient level of power of the RF signals and continues to do so until its related RF amplifier is also driven into limitation.

Abstract: A circuit arrangement that utilizes digital data representative of the amplitude of an RF pulse envelope is disclosed. The circuit arrangement comprises a PROM having prestored and addressable routines and a nine stage sequentially arranged eight (8) bit latches that are clocked at a rate of 25 nanoseconds. The circuit arrangement determines, within 25 nanoseconds, when the maximum value of the RF pulse envelope is within a selectable 6 dB or 3 dB point and generates a control signal SV that causes the data in the upper stages of the nine stage latches to be frozen and further generates an address that is routed to the PROM, wherein a family of waveform shapes are accessed. The circuit arrangement provides for four (4) data points that are examined by prestored routines of the PROM and compared against the prestored family of waveform shapes, and, upon a match therebetween, determines the time of arrival (TOA) and pulse width of the RF pulse envelope being received by the circuit arrangement.

Abstract: A radio frequency receiver wherein received signals are directed to a mixer through a pair of signal channels, the bandwidth of one of the pair of signal channels being a selected narrow portion of the bandwidth of the other one of the pair of signal channels. With such arrangement a received signal within a wide band of frequencies is passed to the mixer through both channels to become homodyned to a fixed intermediate frequency signal. Noise received by the wide bandwidth receiver while also passed through the both channels is mixed with only a narrow portion of itself, and hence the amount of noise at the fixed intermediate frequency is reduced with the result that the sensitivity of the receiver is correspondingly increased. An instantaneous frequency measuring unit is also fed by the selected narrow portion of the wide bandwidth signal channel to determine the frequency of the received signal with improved sensitivity.

Abstract: A radio frequency receiver wherein received signals are directed to a mixer through a pair of signal channels, the bandwidth of one of the pair of signal channels being a selected narrow portion of the bandwidth of the other one of the pair of signal channels. With such arrangement a received signal within a wide band of frequencies is passed to the mixer through both channels to become homodyned to a fixed intermediate frequency signal. Noise received by the wide bandwidth receiver while also passed through the both channels is mixed with only a narrow portion of itself, and hence the amount of noise at the fixed intermediate frequency is reduced with the result that the sensitivity of the receiver is correspondingly increased. An instantaneous frequency measuring unit is also fed by the selected narrow portion of the wide bandwidth signal channel to determine the frequency of the received signal with improved sensitivity.

Abstract: A mechanical stabilizing device for stabilizing a shaft, pipe or similar fixture member. The device comprises a two-part unit slidable along the pipe or shaft. The upper part consists of a canopy housing with an internal female threaded portion. The lower part consists of a male threaded portion with a hex nut adapter which receives set screws. The upper bell housing is moved along the shaft and pushed against the wall or ceiling and the lower adapter portion screwed into the threaded portion of the canopy. The lower adapter portion is then secured to the shaft by the set screws. The upper bell can be upwardly tightened so that the ceiling flange portion of the bell exerts a force against the ceiling. Once tightened, the set screws in the bell can be secured to the shaft and the entire assembly consisting of the canopy, vertical shaft and lower adapter portion are unitized to reduce wobble and application of lateral loads.

Abstract: A pulser circuit produces pulses of broadband radio frequency (RF) electromagnetic wave energy that are coupled through a hybrid to a transmit-receive antenna which is contiguous with the ground. If a transmitted pulse is incident on a conductive wire in the ground, a ringing is set up in it. The wire retransmits the electromagnetic wave signal with the energy concentrated at the ringing frequency. Signals received by the antenna are coupled through the hybrid and selectively passed by a gate circuit to a processor. Signals passed by the gate are combined with a local oscillator signal in a mixer to produce an intermediate frequency (IF) signal that is displayed on an oscilloscope. A concentration of energy at a particular frequency on the oscilloscope display is an indication that a wire is in the ground below the antenna. The operation of the pulser and the gate are controlled by timing pulses from a clock circuit.