Morgan Bishop scite author profile

Morgan Bishop

5Publications

44Citation Statements Received

6Citation Statements Given

How they've been cited

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Affiliations

United States Air Force Research Laboratory, SUNY Geneseo

Publications

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Free Energy Gap and Statistical Thermodynamic Fidelity of DNA Codes

Bishop

D’yachkov²,

Macula³

et al. 2007

Journal of Computational Biology

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DNA nanotechnology often requires collections of oligonucleotides called "DNA free energy gap codes" that do not produce erroneous crosshybridizations in a competitive muliplexing environment. This paper addresses the question of how to design these codes to accomplish a desired amount of work within an acceptable error rate. Using a statistical thermodynamic and probabilistic model of DNA code fidelity and mathematical random coding theory methods, theoretical lower bounds on the size of DNA codes are given. More importantly, DNA code design parameters (e.g., strand number, strand length and sequence composition) needed to achieve experimental goals are identified.

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Hypothesis group testing for disjoint pairs

Bishop

Macula

Renz³

et al. 2007

J Comb Optim

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Confabulation based sentence completion for machine reading

Qiu

Burns

et al. 2011

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Sentence completion and prediction refers to the capability of filling missing words in any incomplete sentences. It is one of the keys to reading comprehension, thus making sentence completion an indispensible component of machine reading. Cogent confabulation is a bio-inspired computational model that mimics the human information processing. The building of confabulation knowledge base uses an unsupervised machine learning algorithm that extracts the relations between objects at the symbolic level. In this work, we propose performance improved training and recall algorithms that apply the cogent confabulation model to solve the sentence completion problem. Our training algorithm adopts a two-level hash table, which significantly improves the training speed, so that a large knowledge base can be built at relatively low computation cost. The proposed recall function fills missing words based on the sentence context. Experimental results show that our software can complete trained sentences with 100% accuracy. It also gives semantically correct answers to more than two thirds of the testing sentences that have not been trained before.

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Self-structured confabulation network for fast anomaly detection and reasoning

Chen

Bishop

et al. 2015

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AnRAD: A Neuromorphic Anomaly Detection Framework for Massive Concurrent Data Streams

Chen

Luley

et al. 2018

IEEE Trans. Neural Netw. Learning Syst.

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The evolution of high performance computing technologies has enabled the large-scale implementation of neuromorphic models and pushed the research in computational intelligence into a new era. Among the machine learning applications, unsupervised detection of anomalous streams is especially challenging due to the requirements of detection accuracy and real-time performance. Designing a computing framework that harnesses the growing computing power of the multicore systems while maintaining high sensitivity and specificity to the anomalies is an urgent research topic. In this paper, we propose anomaly recognition and detection (AnRAD), a bioinspired detection framework that performs probabilistic inferences. We analyze the feature dependency and develop a self-structuring method that learns an efficient confabulation network using unlabeled data. This network is capable of fast incremental learning, which continuously refines the knowledge base using streaming data. Compared with several existing anomaly detection approaches, our method provides competitive detection quality. Furthermore, we exploit the massive parallel structure of the AnRAD framework. Our implementations of the detection algorithm on the graphic processing unit and the Xeon Phi coprocessor both obtain substantial speedups over the sequential implementation on general-purpose microprocessor. The framework provides real-time service to concurrent data streams within diversified knowledge contexts, and can be applied to large problems with multiple local patterns. Experimental results demonstrate high computing performance and memory efficiency. For vehicle behavior detection, the framework is able to monitor up to 16000 vehicles (data streams) and their interactions in real time with a single commodity coprocessor, and uses less than 0.2 ms for one testing subject. Finally, the detection network is ported to our spiking neural network simulator to show the potential of adapting to the emerging neuromorphic architectures.

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Morgan Bishop

Free Energy Gap and Statistical Thermodynamic Fidelity of DNA Codes

Hypothesis group testing for disjoint pairs

Confabulation based sentence completion for machine reading

Self-structured confabulation network for fast anomaly detection and reasoning

AnRAD: A Neuromorphic Anomaly Detection Framework for Massive Concurrent Data Streams

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