Your search keyword '"California Univ., San Diego."' showing total 1,310 results

1301. A supervised learning neural network coprocessor for soft-decision maximum-likelihood decoding.

Author

Wu YJ, Chau PM, and Hecht-Nielsen R

Abstract

A supervised learning neural network (SLNN) coprocessor which enhances the performance of a digital soft-decision Viterbi decoder used for forward error correction in a digital communication channel with either fading plus additive white Gaussian noise (AWGN) or pure AWGN has been investigated and designed. The SLNN is designed to cooperate with a phase shift keying (PSK) demodulator, an automatic gain control (AGC) circuit, and a 3-bit quantizer which is an analog to digital convertor. It is trained to learn the best uniform quantization step-size Delta (BEST) as a function of the mean and the standard deviation of various sets of Gaussian distributed random variables. The channel cutoff rate (R(0)) of the channel is employed to determine the best quantization threshold step-size (Delta(BEST)) that results in the minimization of the Viterbi decoder output bit error rate (BER). For a digital communication system with a SLNN coprocessor, consistent and substantial BER performance improvements are observed. The performance improvement ranges from a minimum of 9% to a maximum of 25% for a pure AWGN channel and from a minimum of 25% to a maximum of 70% for a fading channel. This neural network coprocessor approach can be generalized and applied to any digital signal processing system to decrease the performance losses associated with quantization and/or signal instability.

Published

1995

1302. A learning law for density estimation.

Author

Modha DS and Fainman Y

Abstract

Probability density functions are estimated by an exponential family of densities based on multilayer feedforward networks. The role of the multilayer feedforward networks, in the proposed estimator, is to approximate the logarithm of the probability density functions. The method of maximum likelihood is used, as the main contribution, to derive an unsupervised backpropagation learning law to estimate the probability density functions. Computer simulation results demonstrating the use of the derived learning law are presented.

Published

1994

1303. Minimax design of neural net controllers for highly uncertain plants.

Author

Sebald AV and Schlenzig J

Abstract

This paper discusses the use of evolutionary programming (EP) for computer-aided design and testing of neural controllers applied to problems in which the system to be controlled is highly uncertain. Examples include closed-loop control of drug infusion and integrated control of HVAC/lighting/utility systems in large multi-use buildings. The method is described in detail and applied to a modified Cerebellar Model Arithmetic Computer (CMAC) neural network regulator for systems with unknown time delays. The design and testing problem is viewed as a game, in that the controller is chosen with a minimax criterion i.e., minimize the loss associated with its use on the worst possible plant. The technique permits analysis of neural strategies against a set of feasible plants. This yields both the best choice of control parameters and identification of that plant which is most difficult for the best controller to handle.

Published

1994

1304. Performance evaluation of 2-D adaptive prediction filters for detection of small objects in image data.

Author

Soni T, Zeidler JR, and Ku WH

Abstract

This work studies the performance of dimensional least mean square (TDLMS) adaptive filters as prewhitening filters for the detection of small objects in image data. The object of interest is assumed to have a very small spatial spread and is obscured by correlated clutter of much larger spatial extent. The correlated clutter is predicted and subtracted from the input signal, leaving components of the spatially small signal in the residual output. The receiver operating characteristics of a detection system augmented by a TDLMS prewhitening filter are plotted using Monte-Carlo techniques. It is shown that such a detector has better operating characteristics than a conventional matched filter in the presence of correlated clutter. For very low signal-to-background ratios, TDLMS-based detection systems show a considerable reduction in the number of false alarms. The output energy in both the residual and prediction channels of such filters is shown to be dependent on the correlation length of the various components in the input signal. False alarm reduction and detection gains obtained by using this detection scheme on thermal infrared sensor data with known object positions is presented.

Published

1993

1305. Selecting concise training sets from clean data.

Author

Plutowski M and White H

Abstract

The authors derive a method for selecting exemplars for training a multilayer feedforward network architecture to estimate an unknown (deterministic) mapping from clean data, i.e., data measured either without error or with negligible error. The objective is to minimize the data requirement of learning. The authors choose a criterion for selecting training examples that works well in conjunction with the criterion used for learning, here, least squares. They proceed sequentially, selecting an example that, when added to the previous set of training examples and learned, maximizes the decrement of network squared error over the input space. When dealing with clean data and deterministic relationships, concise training sets that minimize the integrated squared bias (ISB) are desired. The ISB is used to derive a selection criterion for evaluating individual training examples, the DISB, that is maximized to select new exemplars. They conclude with graphical illustrations of the method, and demonstrate its use during network training. Experimental results indicate that training upon exemplars selected in this fashion can save computation in general purpose use as well.

Published

1993

1306. A scalable optoelectronic neural system using free-space optical interconnects.

Author

Krishnamoorthy AV, Yayla G, and Esener S

Abstract

The design of a scalable, fully connected 3-D optoelectronic neural system that uses free-space optical interconnects with silicon-VLSI-based hybrid optoelectronic circuits is proposed. The system design uses a hardware-efficient combination of pulsewidth-modulating optoelectronic neurons and pulse-amplitude-modulating electronic synapses. Low-area, high-linear-dynamic-range analog synapse and neuron circuits are proposed. SPICE circuit simulations and an experimental demonstration of the free-space optical interconnection system are included.

Published

1992

1307. Lneuro 1.0: a piece of hardware LEGO for building neural network systems.

Author

Mauduit N, Duranton M, Gobert J, and Sirat JA

Abstract

Neural network simulations on a parallel architecture are reported. The architecture is scalable and flexible enough to be useful for simulating various kinds of networks and paradigms. The computing device is based on an existing coarse-grain parallel framework (INMOS transputers), improved with finer-grain parallel abilities through VLSI chips, and is called the Lneuro 1.0 (for LEP neuromimetic) circuit. The modular architecture of the circuit makes it possible to build various kinds of boards to match the expected range of applications or to increase the power of the system by adding more hardware. The resulting machine remains reconfigurable to accommodate a specific problem to some extent. A small-scale machine has been realized using 16 Lneuros, to experimentally test the behavior of this architecture. Results are presented on an integer version of Kohonen feature maps. The speedup factor increases regularly with the number of clusters involved (to a factor of 80). Some ways to improve this family of neural network simulation machines are also investigated.

Published

1992

1308. Deposition and characterization of thin ferroelectric lead lanthanum zirconate titanate (PLZT) films on sapphire for spatial light modulators applications.

Author

Krishnakumar S, Ozguz VH, Fan C, Cozzolino C, Esener SC, and Lee SH

Abstract

Ferroelectric lead lanthanum zirconate titanate (PLZT) films are deposited on R-plane sapphire using RF triode magnetron sputtering. Perovskite PLZT films with the desired composition (9/65/35) are obtained using compensated deposition techniques around 500 degrees C and postdeposition annealing at 650 degrees C. The deposited films exhibit good optical and electrooptical properties. The room temperature dielectric constant of the films was 1800 at 10 kHz. The refractive index of the films was in the range of 2.2-2.5. The films showed a quadratic electrooptic effect with R=0.6 x10(-16) m(2)/V(2). The development of PLZT on silicon-on-sapphire smart spatial light modulators using these films is also explored.

Published

1991

1309. Detection of blood vessels in retinal images using two-dimensional matched filters.

Author

Chaudhuri S, Chatterjee S, Katz N, Nelson M, and Goldbaum M

Abstract

Blood vessels usually have poor local contrast, and the application of existing edge detection algorithms yield results which are not satisfactory. An operator for feature extraction based on the optical and spatial properties of objects to be recognized is introduced. The gray-level profile of the cross section of a blood vessel is approximated by a Gaussian-shaped curve. The concept of matched filter detection of signals is used to detect piecewise linear segments of blood vessels in these images. Twelve different templates that are used to search for vessel segments along all possible directions are constructed. Various issues related to the implementation of these matched filters are discussed. The results are compared to those obtained with other methods.

Published

1989

1310. Modeling of lung morphogenesis using fractal geometries.

Author

Nelson TR and Manchester DK

Abstract

The fractal dimension (D(F)) is one measure of the space-filling features of a self-similar structure. Additionally, since D(F) varies with branching level, there may be potential critical locations that are functionality important. The authors introduce an algorithm that models lung airway structures and uses computer simulations of growth based on fractal concepts. Under these conditions, limits imposed by simple boundary constraints generate structures that are in good agreement with actual morphometric data.

Published

1988