Liu Yang scite author profile

The recent completion of the Human Genome Project has made possible a high-throughput "systems approach" for accelerating the elucidation of molecular underpinnings of human diseases, and subsequent derivation of molecular-based strategies to more effectively prevent, diagnose, and treat these diseases. Although altered phenotypes are among the most reliable manifestations of altered gene functions, research using systematic analysis of phenotype relationships to study human biology is still in its infancy. This article focuses on the emerging field of high-throughput phenotyping (HTP) phenomics research, which aims to capitalize on novel highthroughput computation and informatics technology developments to derive genomewide molecular networks of genotype-phenotype associations, or "phenomic associations." The HTP phenomics research field faces the challenge of technological research and development to generate novel tools in computation and informatics that will allow researchers to amass, access, integrate, organize, and manage phenotypic databases across species and enable genomewide analysis to associate phenotypic information with genomic data at different scales of biology. Key state-of-the-art technological advancements critical for HTP phenomics research are covered in this review. In particular, we highlight the power of computational approaches to conduct large-scale phenomics studies.

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Polynomially Complex Synthesis of Distributed Supervisors for Large-Scale AMSs Using Petri Nets

Zhou

et al. 2016

IEEE Trans. Contr. Syst. Technol.

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Static and dynamic power system load emulation in converter-based reconfigurable power grid emulator

Jing

Yang

et al. 2014

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Liu Yang

Virtual Synchronous Generator Control of Full Converter Wind Turbines With Short-Term Energy Storage

D–Q Impedance Based Stability Analysis and Parameter Design of Three-Phase Inverter-Based AC Power Systems

Computational Approaches to Phenotyping: High-Throughput Phenomics

Polynomially Complex Synthesis of Distributed Supervisors for Large-Scale AMSs Using Petri Nets

Static and dynamic power system load emulation in converter-based reconfigurable power grid emulator

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