Learning Objectives & Matches
Construct model equations from a description of a biological system
Create complex and dynamic mathematical models of population, community, or ecological systems.
Perform complex, dynamic, and integrated mathematical modeling of ecological, environmental, or economic systems.
Develop models or computer simulations of human biobehavioral systems to obtain data for measuring or controlling life processes.
Develop or use mathematical models to track changes in biological phenomena, such as the spread of infectious diseases.
Specify manipulative or computational methods to be applied to models.
Formulate mathematical or simulation models of problems, relating constants and variables, restrictions, alternatives, conflicting objectives, and their numerical parameters.
Develop computer models of chemical processes.
Devise or apply independent models or tools to help verify results of analytical systems.
Break systems into their components, assign numerical values to each component, and examine the mathematical relationships between them.
Apply research or simulation results to extend biological theory or recommend new research projects.
Interpret dynamics of discrete and continuous models
Create complex and dynamic mathematical models of population, community, or ecological systems.
Develop mathematical or statistical models of phenomena to be used for analysis or for computational simulation.
Interpret data from traffic modeling software, geographic information systems, or associated databases.
Develop or use mathematical models to track changes in biological phenomena, such as the spread of infectious diseases.
Specify manipulative or computational methods to be applied to models.
Design computer simulations to model physical data so that it can be better understood.
Perform complex, dynamic, and integrated mathematical modeling of ecological, environmental, or economic systems.
Present the results of mathematical modeling and data analysis to management or other end users.
Measure and graph phenomena such as lake levels, stream flows, and changes in water volumes.
Design, conduct, and evaluate experimental operational models in cases where models cannot be developed from existing data.
Classify stability of fixed points and contextualize within the framework of the system
Establish fixed points for use in making maps, using geodetic and engineering instruments.
Break systems into their components, assign numerical values to each component, and examine the mathematical relationships between them.
Verify stability, interoperability, portability, security, or scalability of system architecture.
Monitor functioning of equipment to ensure system operates in conformance with specifications.
Calibrate vehicle systems, including control algorithms or other software systems.
Remove objects from solutions at periodic intervals and observe objects to verify conformance to specifications.
Adjust system controls to settings recommended by manufacturer to balance system.
Monitor functioning of equipment and make necessary modifications to ensure system operates in conformance with specifications.
Design control systems or algorithms for purposes such as automotive energy management, emissions management, or increased operational safety or performance.
Create complex and dynamic mathematical models of population, community, or ecological systems.
Use mathematical software to approximate solutions of biological models
Develop or use mathematical models to track changes in biological phenomena, such as the spread of infectious diseases.
Create complex and dynamic mathematical models of population, community, or ecological systems.
Perform complex, dynamic, and integrated mathematical modeling of ecological, environmental, or economic systems.
Provide statistical and computational tools for biologically based activities, such as genetic analysis, measurement of gene expression, or gene function determination.
Develop models or computer simulations of human biobehavioral systems to obtain data for measuring or controlling life processes.
Develop computer models of chemical processes.
Compile and analyze molecular or cellular experimental data and adjust experimental designs as necessary.
Adapt statistical methods to solve specific problems in many fields, such as economics, biology, and engineering.
Devise or apply independent models or tools to help verify results of analytical systems.
Develop or maintain applications that process biologically based data into searchable databases for purposes of analysis, calculation, or presentation.