Abstract: A high-order synthetic aperture radar (SAR) autofocusing method decomposes phase error into basis function components, one order at a time. Image patches are partitioned into a plurality of subapertures in accordance with positive- and negative-going slope of the basis function at each order. A positive mask is applied to each subaperture within which the basis function is increasing in slope, whereas a negative mask is applied to each subaperture within which the basis function is decreasing in slope. The results are then correlated to obtain a focused image, with the principle of map-drift preferably being used to compute phase-amplitude weights. The method may be uniformly applied, enabling the steps to be performed at a plurality of increasingly higher orders without performance degradation.

Abstract: The sensitivity of a synthetic aperture radar (SAR) system employing stretch processing is improved in the presence of radio-frequency interference (RFI). The sequence of data processing operations initially uses a high number of bits to digitize radar echoes plus RFI, then uses floating-point arithmetic to perform range deskewing to "compress" RFI tones, followed by threshholding and nulling the primary RFI contributors, and finally re-quantizes the resulting radar signal to a lower number of bits and appropriately allocating these bits over the range of signal levels.

Abstract: The extraction and pre-cueing of axon fibers and clusters is performed on transmission electron micrograph (TEM) image mosaics to reduce neuroanatomist workload. Given a multiplicity of myelin-sheathed axon fibers in a cross-sectional image containing many such fibers, the inventive method uses these grey-level operators to effectively identify co-occurrences of the axon fibers and their myelin sheaths and output a result representative of these co-occurrences. The co-occurrences may then be sorted in terms of their geometry to identify groups of fibers indicative of axon clusters. Specifically, a grey-level opening and conditional dilation is performed on the image to obtain a first residue representative of potential axons A grey-level closing and conditional erosion of the first opening image is then performed to obtain a second residue representative of potential axon fibers, including their respective myelin sheaths.

Abstract: A dynamically stable associative learning neural system includes a plurality of neural network architectural units. A neural network architectural unit has as input both condition stimuli and unconditioned stimulus, an output neuron for accepting the input, and patch elements interposed between each input and the output neuron. The patches in the architectural unit can be modified and added. A neural network can be formed from a single unit, a layer of units, or multiple layers of units.

Abstract: A high-sensitivity sensor configuration improves upon airborne hyperspectral and multispectral sensing, particularly for thermal/infrared military target detection and/or identification. The invention combines dispersive spectrometer and filtered TDI detector techniques to provide improved NESR through increased dwell time, along with interband temporal simultaneity and spatial registration. Embodiments relating to hyperspectral, multispectral, and dual-band arrangements are disclosed.

Abstract: A method is provided for producing by centrifugal casting an alloy tubular article of manufacture in the form of a composite tubular product comprised of an outer alloy layer (first alloy) and at least one inner alloy layer (second alloy) while substantially inhibiting the formation of a metallurgical bond between layers in the final casting. The product is produced using a rotatable centrifugal casting mold having a cylindrical inner surface adapted to receive a molten metal alloy. A first layer of an alloy is poured into the rotatable mold, the alloy having a melting point of at least about 1300.degree. C. and generally at least about 1400.degree. C. Centrifugally casting said alloy as an outer layer during rotation of said mold. The outer layer is solidified and cooled to a temperature not exceeding about 92% of its absolute melting point in degrees Kelvin. At least one inner layer is poured into the outer layer, the alloy of the inner having a melting point of at least about 1300.degree. C.

Abstract: Iron minerals are reduced in solid state in a vertical shaft furnace by gases produced in the furnace fed at the top with a mixture of minerals and solid reducing material. A combustion gas including oxygen is injected at low velocity and in finely divided form in the medial part of the furnace. Combustion gases produced in the furnace transfer heat as determined by the combustion with oxygen and are removed at the top of the furnace and recycled to the bottom of the furnace. The amounts of materials, the amounts of gases aspirated and the amounts of oxygen are adjusted so that the gases and materials leaving the top of the furance and in the bottom of the furnace are at low temperature.