- Design validation study features, such as sampling, testing, or analytical methodologies.
Occupations with related tasks Save Table: XLSX CSV
- Develop or implement human performance research, investigation, or analysis protocols.
- Develop or implement research methodologies or statistical analysis plans to test and evaluate developmental prototypes used in new products or processes, such as cockpit designs, user workstations, or computerized human models.
- Collect data through direct observation of work activities or witnessing the conduct of tests.
- Conduct interviews or surveys of users or customers to collect information on topics, such as requirements, needs, fatigue, ergonomics, or interfaces.
- Advocate for end users in collaboration with other professionals, including engineers, designers, managers, or customers.
- Inspect work sites to identify physical hazards.
- Prepare reports or presentations summarizing results or conclusions of human factors engineering or ergonomics activities, such as testing, investigation, or validation.
- Recommend workplace changes to improve health and safety, using knowledge of potentially harmful factors, such as heavy loads or repetitive motions.
- Perform functional, task, or anthropometric analysis, using tools, such as checklists, surveys, videotaping, or force measurement.
- Provide technical support to clients through activities, such as rearranging workplace fixtures to reduce physical hazards or discomfort or modifying task sequences to reduce cycle time.
- Assess the user-interface or usability characteristics of products.
- Establish system operating or training requirements to ensure optimized human-machine interfaces.
- Integrate human factors requirements into operational hardware.
- Review health, safety, accident, or worker compensation records to evaluate safety program effectiveness or to identify jobs with high incidence of injury.
- Design or evaluate human work systems, using human factors engineering and ergonomic principles to optimize usability, cost, quality, safety, or performance.
- Write, review, or comment on documents, such as proposals, test plans, or procedures.
- Train users in task techniques or ergonomic principles.
- Conduct research to evaluate potential solutions related to changes in equipment design, procedures, manpower, personnel, or training.
- Provide human factors technical expertise on topics, such as advanced user-interface technology development or the role of human users in automated or autonomous sub-systems in advanced vehicle systems.
- Estimate time or resource requirements for ergonomic or human factors research or development projects.
- Design cognitive aids, such as procedural storyboards or decision support systems.
- Analyze complex systems to determine potential for further development, production, interoperability, compatibility, or usefulness in a particular area, such as aviation.
- Investigate theoretical or conceptual issues, such as the human design considerations of lunar landers or habitats.
- Operate testing equipment, such as heat stress meters, octave band analyzers, motion analysis equipment, inclinometers, light meters, thermoanemometers, sling psychrometers, or colorimetric detection tubes.
- Perform statistical analyses, such as social network pattern analysis, network modeling, discrete event simulation, agent-based modeling, statistical natural language processing, computational sociology, mathematical optimization, or systems dynamics.
- Apply modeling or quantitative analysis to forecast events, such as human decisions or behaviors, the structure or processes of organizations, or the attitudes or actions of human groups.
- Develop or implement human performance research, investigation, or analysis protocols.
- Develop or implement research methodologies or statistical analysis plans to test and evaluate developmental prototypes used in new products or processes, such as cockpit designs, user workstations, or computerized human models.
- Design and oversee testing, installation, and repair of marine apparatus and equipment.
- Determine conditions under which tests are to be conducted, as well as sequences and phases of test operations.
- Design complete hull and superstructure according to specifications and test data, in conformity with standards of safety, efficiency, and economy.
- Supervise other engineers and crew members and train them for routine and emergency duties.
- Study design proposals and specifications to establish basic characteristics of craft, such as size, weight, speed, propulsion, displacement, and draft.
- Perform monitoring activities to ensure that ships comply with international regulations and standards for life-saving equipment and pollution preventatives.
- Oversee construction and testing of prototype in model basin and develop sectional and waterline curves of hull to establish center of gravity, ideal hull form, and buoyancy and stability data.
- Evaluate performance of craft during dock and sea trials to determine design changes and conformance with national and international standards.
- Prepare plans, estimates, design and construction schedules, and contract specifications, including any special provisions.
- Check, test, and maintain automatic controls and alarm systems.
- Design layout of craft interior, including cargo space, passenger compartments, ladder wells, and elevators.
- Evaluate operation of marine equipment during acceptance testing and shakedown cruises.
- Act as liaisons between ships' captains and shore personnel to ensure that schedules and budgets are maintained, and that ships are operated safely and efficiently.
- Conduct environmental, operational, or performance tests on marine machinery and equipment.
- Inspect marine equipment and machinery to draw up work requests and job specifications.
- Prepare, or direct the preparation of, product or system layouts and detailed drawings and schematics.
- Investigate and observe tests on machinery and equipment for compliance with standards.
- Maintain records of engineering department activities, including expense records and details of equipment maintenance and repairs.
- Coordinate activities with regulatory bodies to ensure repairs and alterations are at minimum cost and consistent with safety.
- Prepare technical reports for use by engineering, management, or sales personnel.
- Procure materials needed to repair marine equipment and machinery.
- Maintain contact with, and formulate reports for, contractors and clients to ensure completion of work at minimum cost.
- Maintain and coordinate repair of marine machinery and equipment for installation on vessels.
- Confer with research personnel to clarify or resolve problems and to develop or modify designs.
- Conduct analytical, environmental, operational, or performance studies to develop designs for products, such as marine engines, equipment, and structures.
- Review work requests and compare them with previous work completed on ships to ensure that costs are economically sound.
- Analyze data to determine feasibility of product proposals.
- Schedule machine overhauls and the servicing of electrical, heating, ventilation, refrigeration, water, and sewage systems.
- Conduct analyses of ships, such as stability, structural, weight, and vibration analyses.
- Establish arrangement of boiler room equipment and propulsion machinery, heating and ventilating systems, refrigeration equipment, piping, and other functional equipment.
- Design and oversee testing, installation, and repair of marine apparatus and equipment.
- Determine conditions under which tests are to be conducted, as well as sequences and phases of test operations.
- Plan or schedule engineering research or development projects involving microelectromechanical systems (MEMS) technology.
- Develop or validate product-specific test protocols, acceptance thresholds, or inspection tools for quality control testing or performance measurement.
- Create schematics and physical layouts of integrated microelectromechanical systems (MEMS) components or packaged assemblies consistent with process, functional, or package constraints.
- Investigate characteristics such as cost, performance, or process capability of potential microelectromechanical systems (MEMS) device designs, using simulation or modeling software.
- Create or maintain formal engineering documents, such as schematics, bills of materials, components or materials specifications, or packaging requirements.
- Conduct analyses addressing issues such as failure, reliability, or yield improvement.
- Propose product designs involving microelectromechanical systems (MEMS) technology, considering market data or customer requirements.
- Develop formal documentation for microelectromechanical systems (MEMS) devices, including quality assurance guidance, quality control protocols, process control checklists, data collection, or reporting.
- Communicate operating characteristics or performance experience to other engineers or designers for training or new product development purposes.
- Evaluate materials, fabrication methods, joining methods, surface treatments, or packaging to ensure acceptable processing, performance, cost, sustainability, or availability.
- Refine final microelectromechanical systems (MEMS) design to optimize design for target dimensions, physical tolerances, or processing constraints.
- Conduct harsh environmental testing, accelerated aging, device characterization, or field trials to validate devices, using inspection tools, testing protocols, peripheral instrumentation, or modeling and simulation software.
- Develop or file intellectual property and patent disclosure or application documents related to microelectromechanical systems (MEMS) devices, products, or systems.
- Conduct or oversee the conduct of prototype development or microfabrication activities to ensure compliance to specifications and promote effective production processes.
- Conduct experimental or virtual studies to investigate characteristics and processing principles of potential microelectromechanical systems (MEMS) technology.
- Devise microelectromechanical systems (MEMS) production methods, such as integrated circuit fabrication, lithographic electroform modeling, or micromachining.
- Develop or validate specialized materials characterization procedures, such as thermal withstand, fatigue, notch sensitivity, abrasion, or hardness tests.
- Validate fabrication processes for microelectromechanical systems (MEMS), using statistical process control implementation, virtual process simulations, data mining, or life testing.
- Demonstrate miniaturized systems that contain components, such as microsensors, microactuators, or integrated electronic circuits, fabricated on silicon or silicon carbide wafers.
- Manage new product introduction projects to ensure effective deployment of microelectromechanical systems (MEMS) devices or applications.
- Conduct acceptance tests, vendor-qualification protocols, surveys, audits, corrective-action reviews, or performance monitoring of incoming materials or components to ensure conformance to specifications.
- Develop or implement microelectromechanical systems (MEMS) processing tools, fixtures, gages, dies, molds, or trays.
- Develop customer documentation, such as performance specifications, training manuals, or operating instructions.
- Identify, procure, or develop test equipment, instrumentation, or facilities for characterization of microelectromechanical systems (MEMS) applications.
- Oversee operation of microelectromechanical systems (MEMS) fabrication or assembly equipment, such as handling, singulation, assembly, wire-bonding, soldering, or package sealing.
- Consider environmental issues when proposing product designs involving microelectromechanical systems (MEMS) technology.
- Design or develop energy products using nanomaterials or nanoprocesses, such as micro-nano machining.
- Design or develop industrial air quality microsystems, such as carbon dioxide fixing devices.
- Design or develop sensors to reduce the energy or resource requirements to operate appliances, such as washing machines or dishwashing machines.
- Design sensors or switches that require little or no power to operate for environmental monitoring or industrial metering applications.
- Research or develop emerging microelectromechanical (MEMS) systems to convert nontraditional energy sources into power, such as ambient energy harvesters that convert environmental vibrations into usable energy.
- Plan or schedule engineering research or development projects involving microelectromechanical systems (MEMS) technology.
- Develop or validate product-specific test protocols, acceptance thresholds, or inspection tools for quality control testing or performance measurement.
- Devise testing methods to evaluate the effects of various conditions on particular materials.
- Plan laboratory experiments to confirm feasibility of processes and techniques used in the production of materials with special characteristics.
- Conduct research on the structures and properties of materials, such as metals, alloys, polymers, and ceramics, to obtain information that could be used to develop new products or enhance existing ones.
- Test metals to determine conformance to specifications of mechanical strength, strength-weight ratio, ductility, magnetic and electrical properties, and resistance to abrasion, corrosion, heat, and cold.
- Test material samples for tolerance under tension, compression, and shear to determine the cause of metal failures.
- Determine ways to strengthen or combine materials or develop new materials with new or specific properties for use in a variety of products and applications.
- Prepare reports, manuscripts, proposals, and technical manuals for use by other scientists and requestors, such as sponsors and customers.
- Recommend materials for reliable performance in various environments.
- Supervise and monitor production processes to ensure efficient use of equipment, timely changes to specifications, and project completion within time frame and budget.
- Research methods of processing, forming, and firing materials to develop such products as ceramic dental fillings, unbreakable dinner plates, and telescope lenses.
- Perform experiments and computer modeling to study the nature, structure, and physical and chemical properties of metals and their alloys, and their responses to applied forces.
- Test individual parts and products to ensure that manufacturer and governmental quality and safety standards are met.
- Confer with customers to determine how to tailor materials to their needs.
- Visit suppliers of materials or users of products to gather specific information.
- Write research papers for publication in scientific journals.
- Teach in colleges and universities.
- Devise testing methods to evaluate the effects of various conditions on particular materials.
- Plan laboratory experiments to confirm feasibility of processes and techniques used in the production of materials with special characteristics.
- Develop or use new non-destructive testing methods, such as acoustic emission testing, leak testing, and thermal or infrared testing.
- Interpret the results of all methods of non-destructive testing (NDT), such as acoustic emission, electromagnetic, leak, liquid penetrant, magnetic particle, neutron radiographic, radiographic, thermal or infrared, ultrasonic, vibration analysis, and visual testing.
- Interpret or evaluate test results in accordance with applicable codes, standards, specifications, or procedures.
- Identify defects in solid materials, using ultrasonic testing techniques.
- Make radiographic images to detect flaws in objects while leaving objects intact.
- Prepare reports on non-destructive testing results.
- Select, calibrate, or operate equipment used in the non-destructive testing of products or materials.
- Visually examine materials, structures, or components for signs of corrosion, metal fatigue, cracks, or other flaws, using tools and equipment such as endoscopes, closed-circuit television systems, and fiber optics.
- Examine structures or vehicles such as aircraft, trains, nuclear reactors, bridges, dams, and pipelines, using non-destructive testing techniques.
- Document non-destructive testing methods, processes, or results.
- Produce images of objects on film, using radiographic techniques.
- Supervise or direct the work of non-destructive testing trainees or staff.
- Conduct liquid penetrant tests to locate surface cracks by coating objects with fluorescent dyes, cleaning excess penetrant, and applying developer.
- Map the presence of imperfections within objects, using sonic measurements.
- Identify defects in concrete or other building materials, using thermal or infrared testing.
- Evaluate material properties, using radio astronomy, voltage and amperage measurement, or rheometric flow measurement.
- Develop or use new non-destructive testing methods, such as acoustic emission testing, leak testing, and thermal or infrared testing.
- Formulate sampling procedures and designs and develop forms and instructions for recording, evaluating, and reporting quality and reliability data.
- Estimate production costs, cost saving methods, and the effects of product design changes on expenditures for management review, action, and control.
- Plan and establish sequence of operations to fabricate and assemble parts or products and to promote efficient utilization.
- Analyze statistical data and product specifications to determine standards and establish quality and reliability objectives of finished product.
- Confer with clients, vendors, staff, and management personnel regarding purchases, product and production specifications, manufacturing capabilities, or project status.
- Communicate with management and user personnel to develop production and design standards.
- Evaluate precision and accuracy of production and testing equipment and engineering drawings to formulate corrective action plan.
- Recommend methods for improving utilization of personnel, material, and utilities.
- Record or oversee recording of information to ensure currency of engineering drawings and documentation of production problems.
- Draft and design layout of equipment, materials, and workspace to illustrate maximum efficiency using drafting tools and computer.
- Direct workers engaged in product measurement, inspection, and testing activities to ensure quality control and reliability.
- Develop manufacturing methods, labor utilization standards, and cost analysis systems to promote efficient staff and facility utilization.
- Review production schedules, engineering specifications, orders, and related information to obtain knowledge of manufacturing methods, procedures, and activities.
- Complete production reports, purchase orders, and material, tool, and equipment lists.
- Coordinate and implement quality control objectives, activities, or procedures to resolve production problems, maximize product reliability, or minimize costs.
- Implement methods and procedures for disposition of discrepant material and defective or damaged parts, and assess cost and responsibility.
- Apply statistical methods and perform mathematical calculations to determine manufacturing processes, staff requirements, and production standards.
- Study operations sequence, material flow, functional statements, organization charts, and project information to determine worker functions and responsibilities.
- Regulate and alter workflow schedules according to established manufacturing sequences and lead times to expedite production operations.
- Schedule deliveries based on production forecasts, material substitutions, storage and handling facilities, and maintenance requirements.
- Formulate sampling procedures and designs and develop forms and instructions for recording, evaluating, and reporting quality and reliability data.
- Plan or implement research methodology or procedures to apply principles of electrical theory to engineering projects.
- Design, implement, maintain, or improve electrical instruments, equipment, facilities, components, products, or systems for commercial, industrial, or domestic purposes.
- Oversee project production efforts to assure projects are completed on time and within budget.
- Direct or coordinate manufacturing, construction, installation, maintenance, support, documentation, or testing activities to ensure compliance with specifications, codes, or customer requirements.
- Perform detailed calculations to compute and establish manufacturing, construction, or installation standards or specifications.
- Operate computer-assisted engineering or design software or equipment to perform engineering tasks.
- Confer with engineers, customers, or others to discuss existing or potential engineering projects or products.
- Investigate or test vendors' or competitors' products.
- Inspect completed installations and observe operations to ensure conformance to design and equipment specifications and compliance with operational, safety, or environmental standards.
- Investigate customer or public complaints to determine the nature and extent of problems.
- Prepare technical drawings, specifications of electrical systems, or topographical maps to ensure that installation and operations conform to standards and customer requirements.
- Compile data and write reports regarding existing or potential electrical engineering studies or projects.
- Prepare specifications for purchases of materials or equipment.
- Estimate labor, material, or construction costs for budget preparation purposes.
- Supervise or train project team members, as necessary.
- Assist in developing capital project programs for new equipment or major repairs.
- Collect data relating to commercial or residential development, population, or power system interconnection to determine operating efficiency of electrical systems.
- Develop systems that produce electricity with renewable energy sources, such as wind, solar, or biofuels.
- Develop software to control electrical systems.
- Integrate electrical systems with renewable energy systems to improve overall efficiency.
- Conduct field surveys or study maps, graphs, diagrams, or other data to identify and correct power system problems.
- Design electrical systems or components that minimize electric energy requirements, such as lighting systems designed to account for natural lighting.
- Plan or implement research methodology or procedures to apply principles of electrical theory to engineering projects.
- Design tests of finished products or process capabilities to establish standards or validate process requirements.
- Troubleshoot new or existing product problems involving designs, materials, or processes.
- Investigate or resolve operational problems, such as material use variances or bottlenecks.
- Identify opportunities or implement changes to improve manufacturing processes or products or to reduce costs, using knowledge of fabrication processes, tooling and production equipment, assembly methods, quality control standards, or product design, materials and parts.
- Apply continuous improvement methods, such as lean manufacturing, to enhance manufacturing quality, reliability, or cost-effectiveness.
- Provide technical expertise or support related to manufacturing.
- Incorporate new manufacturing methods or processes to improve existing operations.
- Review product designs for manufacturability or completeness.
- Determine root causes of failures or recommend changes in designs, tolerances, or processing methods, using statistical procedures.
- Prepare reports summarizing information or trends related to manufacturing performance.
- Prepare documentation for new manufacturing processes or engineering procedures.
- Design layout of equipment or workspaces to achieve maximum efficiency.
- Communicate manufacturing capabilities, production schedules, or other information to facilitate production processes.
- Supervise technicians, technologists, analysts, administrative staff, or other engineers.
- Design, install, or troubleshoot manufacturing equipment.
- Evaluate manufactured products according to specifications and quality standards.
- Estimate costs, production times, or staffing requirements for new designs.
- Train production personnel in new or existing methods.
- Analyze the financial impacts of sustainable manufacturing processes or sustainable product manufacturing.
- Develop sustainable manufacturing technologies to reduce greenhouse gas emissions, minimize raw material use, replace toxic materials with non-toxic materials, replace non-renewable materials with renewable materials, or reduce waste.
- Purchase equipment, materials, or parts.
- Evaluate current or proposed manufacturing processes or practices for environmental sustainability, considering factors such as greenhouse gas emissions, air pollution, water pollution, energy use, or waste creation.
- Read current literature, talk with colleagues, participate in educational programs, attend meetings or workshops, or participate in professional organizations or conferences to keep abreast of developments in the manufacturing field.
- Redesign packaging for manufactured products to minimize raw material use or waste.
- Design tests of finished products or process capabilities to establish standards or validate process requirements.
- Develop calibration methodologies, test methodologies, or tools.
- Conduct or direct system-level automotive testing.
- Provide technical direction to other engineers or engineering support personnel.
- Perform failure, variation, or root cause analyses.
- Calibrate vehicle systems, including control algorithms or other software systems.
- Design or analyze automobile systems in areas such as aerodynamics, alternate fuels, ergonomics, hybrid power, brakes, transmissions, steering, calibration, safety, or diagnostics.
- Prepare or present technical or project status reports.
- Conduct research studies to develop new concepts in the field of automotive engineering.
- Establish production or quality control standards.
- Alter or modify designs to obtain specified functional or operational performance.
- Research or implement green automotive technologies involving alternative fuels, electric or hybrid cars, or lighter or more fuel-efficient vehicles.
- Create design alternatives for vehicle components, such as camless or dual-clutch engines or alternative air-conditioning systems, to increase fuel efficiency.
- Develop or implement operating methods or procedures.
- Develop engineering specifications or cost estimates for automotive design concepts.
- Conduct automotive design reviews.
- Design vehicles that use lighter materials, such as aluminum, magnesium alloy, or plastic, to improve fuel efficiency.
- Write, review, or maintain engineering documentation.
- Develop specifications for vehicles powered by alternative fuels or alternative power methods.
- Build models for algorithm or control feature verification testing.
- Coordinate production activities with other functional units, such as procurement, maintenance, or quality control.
- Design control systems or algorithms for purposes such as automotive energy management, emissions management, or increased operational safety or performance.
- Develop or integrate control feature requirements.
- Research computerized automotive applications, such as telemetrics, intelligent transportation systems, artificial intelligence, or automatic control.
- Read current literature, attend meetings or conferences, or talk with colleagues to stay abreast of new automotive technology or competitive products.
- Design vehicles for increased recyclability or use of natural, renewable, or recycled materials in vehicle construction.
- Develop calibration methodologies, test methodologies, or tools.
- Design or conduct tests of new nanotechnology products, processes, or systems.
- Provide scientific or technical guidance or expertise to scientists, engineers, technologists, technicians, or others, using knowledge of chemical, analytical, or biological processes as applied to micro and nanoscale systems.
- Supervise technologists or technicians engaged in nanotechnology research or production.
- Conduct research related to a range of nanotechnology topics, such as packaging, heat transfer, fluorescence detection, nanoparticle dispersion, hybrid systems, liquid systems, nanocomposites, nanofabrication, optoelectronics, or nanolithography.
- Synthesize, process, or characterize nanomaterials, using advanced tools or techniques.
- Prepare reports, deliver presentations, or participate in program review activities to communicate engineering results or recommendations.
- Create designs or prototypes for nanosystem applications, such as biomedical delivery systems or atomic force microscopes.
- Write proposals to secure external funding or to partner with other companies.
- Generate high-resolution images or measure force-distance curves, using techniques such as atomic force microscopy.
- Develop processes or identify equipment needed for pilot or commercial nanoscale scale production.
- Provide technical guidance or support to customers on topics such as nanosystem start-up, maintenance, or use.
- Engineer production processes for specific nanotechnology applications, such as electroplating, nanofabrication, or epoxy.
- Apply nanotechnology to improve the performance or reduce the environmental impact of energy products, such as fuel cells or solar cells.
- Identify new applications for existing nanotechnologies.
- Design or engineer nanomaterials, nanodevices, nano-enabled products, or nanosystems, using three-dimensional computer-aided design (CAD) software.
- Design nano-enabled products with reduced toxicity, increased durability, or improved energy efficiency.
- Coordinate or supervise the work of suppliers or vendors in the designing, building, or testing of nanosystem devices, such as lenses or probes.
- Design nano-based manufacturing processes to minimize water, chemical, or energy use, as well as to reduce waste production.
- Design nanosystems with components such as nanocatalysts or nanofiltration devices to clean specific pollutants from hazardous waste sites.
- Prepare nanotechnology-related invention disclosures or patent applications.
- Reengineer nanomaterials to improve biodegradability.
- Integrate nanotechnology with antimicrobial properties into products, such as household or medical appliances, to reduce the development of bacteria or other microbes.
- Develop catalysis or other green chemistry methods to synthesize nanomaterials, such as nanotubes, nanocrystals, nanorods, or nanowires.
- Design nanoparticle catalysts to detect or remove chemical or other pollutants from water, soil, or air.
- Develop green building nanocoatings, such as self-cleaning, anti-stain, depolluting, anti-fogging, anti-icing, antimicrobial, moisture-resistant, or ultraviolet protectant coatings.
- Design or conduct tests of new nanotechnology products, processes, or systems.
- Develop or modify wet chemical or industrial laboratory experimental techniques for nanoscale use.
- Operate nanotechnology compounding, testing, processing, or production equipment in accordance with appropriate standard operating procedures, good manufacturing practices, hazardous material restrictions, or health and safety requirements.
- Maintain work area according to cleanroom or other processing standards.
- Produce images or measurements, using tools or techniques such as atomic force microscopy, scanning electron microscopy, optical microscopy, particle size analysis, or zeta potential analysis.
- Collaborate with scientists or engineers to design or conduct experiments for the development of nanotechnology materials, components, devices, or systems.
- Repair nanotechnology processing or testing equipment or submit work orders for equipment repair.
- Measure or mix chemicals or compounds in accordance with detailed instructions or formulas.
- Monitor equipment during operation to ensure adherence to specifications for characteristics such as pressure, temperature, or flow.
- Collect or compile nanotechnology research or engineering data.
- Calibrate nanotechnology equipment, such as weighing, testing, or production equipment.
- Monitor hazardous waste cleanup procedures to ensure proper application of nanocomposites or accomplishment of objectives.
- Contribute written material or data for grant or patent applications.
- Inspect or measure thin films of carbon nanotubes, polymers, or inorganic coatings, using a variety of techniques or analytical tools.
- Compare the performance or environmental impact of nanomaterials by nanoparticle size, shape, or organization.
- Process nanoparticles or nanostructures, using technologies such as ultraviolet radiation, microwave energy, or catalysis.
- Implement new or enhanced methods or processes for the processing, testing, or manufacture of nanotechnology materials or products.
- Prepare detailed verbal or written presentations for scientists, engineers, project managers, or upper management.
- Perform functional tests of nano-enhanced assemblies, components, or systems, using equipment such as torque gauges or conductivity meters.
- Maintain accurate record or batch-record documentation of nanoproduction.
- Assemble components, using techniques such as interference fitting, solvent bonding, adhesive bonding, heat sealing, or ultrasonic welding.
- Prepare capability data, training materials, or other documentation for transfer of processes to production.
- Analyze the life cycle of nanomaterials or nano-enabled products to determine environmental impact.
- Measure emission of nanodust or nanoparticles during nanocomposite or other nano-scale production processes, using systems such as aerosol detection systems.
- Assist nanoscientists or engineers in processing or characterizing materials according to physical or chemical properties.
- Assist nanoscientists or engineers in writing process specifications or documentation.
- Develop or modify wet chemical or industrial laboratory experimental techniques for nanoscale use.
- Design or implement fuel cell testing or development programs.
- Plan or conduct experiments to validate new materials, optimize startup protocols, reduce conditioning time, or examine contaminant tolerance.
- Provide technical consultation or direction related to the development or production of fuel cell systems.
- Characterize component or fuel cell performances by generating operating maps, defining operating conditions, identifying design refinements, or executing durability assessments.
- Plan or implement fuel cell cost reduction or product improvement projects in collaboration with other engineers, suppliers, support personnel, or customers.
- Conduct fuel cell testing projects, using fuel cell test stations, analytical instruments, or electrochemical diagnostics, such as cyclic voltammetry or impedance spectroscopy.
- Analyze fuel cell or related test data, using statistical software.
- Conduct post-service or failure analyses, using electromechanical diagnostic principles or procedures.
- Define specifications for fuel cell materials.
- Recommend or implement changes to fuel cell system designs.
- Validate design of fuel cells, fuel cell components, or fuel cell systems.
- Read current literature, attend meetings or conferences, or talk with colleagues to stay abreast of new technology or competitive products.
- Prepare test stations, instrumentation, or data acquisition systems for use in specific tests of fuel cell components or systems.
- Develop fuel cell materials or fuel cell test equipment.
- Fabricate prototypes of fuel cell components, assemblies, stacks, or systems.
- Manage fuel cell battery hybrid system architecture, including sizing of components, such as fuel cells, energy storage units, or electric drives.
- Write technical reports or proposals related to engineering projects.
- Simulate or model fuel cell, motor, or other system information, using simulation software programs.
- Design fuel cell systems, subsystems, stacks, assemblies, or components, such as electric traction motors or power electronics.
- Identify or define vehicle and system integration challenges for fuel cell vehicles.
- Calculate the efficiency or power output of a fuel cell system or process.
- Coordinate fuel cell engineering or test schedules with departments outside engineering, such as manufacturing.
- Authorize release of fuel cell parts, components, or subsystems for production.
- Evaluate the power output, system cost, or environmental impact of new hydrogen or non-hydrogen fuel cell system designs.
- Integrate electric drive subsystems with other vehicle systems to optimize performance or mitigate faults.
- Develop or evaluate systems or methods of hydrogen storage for fuel cell applications.
- Design or implement fuel cell testing or development programs.
- Plan, conduct, and evaluate nutrigenomic or nutrigenetic research.
- Assess nutritional needs, diet restrictions, and current health plans to develop and implement dietary-care plans and provide nutritional counseling.
- Evaluate laboratory tests in preparing nutrition recommendations.
- Counsel individuals and groups on basic rules of good nutrition, healthy eating habits, and nutrition monitoring to improve their quality of life.
- Advise patients and their families on nutritional principles, dietary plans, diet modifications, and food selection and preparation.
- Incorporate patient cultural, ethnic, or religious preferences and needs in the development of nutrition plans.
- Consult with physicians and health care personnel to determine nutritional needs and diet restrictions of patient or client.
- Record and evaluate patient and family health and food history, including symptoms, environmental toxic exposure, allergies, medication factors, and preventive health-care measures.
- Develop recipes and menus to address special nutrition needs, such as low glycemic, low histamine, or gluten- or allergen-free.
- Coordinate diet counseling services.
- Develop curriculum and prepare manuals, visual aids, course outlines, and other materials used in teaching.
- Plan, conduct, and evaluate dietary, nutritional, and epidemiological research.
- Plan and conduct training programs in dietetics, nutrition, and institutional management and administration for medical students, health-care personnel, and the general public.
- Write research reports and other publications to document and communicate research findings.
- Select, train, and supervise workers who plan, prepare, and serve meals.
- Make recommendations regarding public policy, such as nutrition labeling, food fortification, or nutrition standards for school programs.
- Manage quantity food service departments or clinical and community nutrition services.
- Monitor food service operations to ensure conformance to nutritional, safety, sanitation and quality standards.
- Inspect meals served for conformance to prescribed diets and standards of palatability and appearance.
- Purchase food in accordance with health and safety codes.
- Develop policies for food service or nutritional programs to assist in health promotion and disease control.
- Organize, develop, analyze, test, and prepare special meals, such as low-fat, low-cholesterol, or chemical-free meals.
- Advise food service managers and organizations on sanitation, safety procedures, menu development, budgeting, and planning to assist with establishment, operation, and evaluation of food service facilities and nutrition programs.
- Prepare and administer budgets for food, equipment, and supplies.
- Coordinate recipe development and standardization and develop new menus for independent food service operations.
- Confer with design, building, and equipment personnel to plan for construction and remodeling of food service units.
- Plan and prepare grant proposals to request program funding.
- Test new food products and equipment.
- Plan, conduct, and evaluate nutrigenomic or nutrigenetic research.
- Design or direct bench or pilot production experiments to determine the scale of production methods that optimize product yield and minimize production costs.
- Evaluate the safety, efficiency, and effectiveness of biomedical equipment.
- Prepare technical reports, data summary documents, or research articles for scientific publication, regulatory submissions, or patent applications.
- Design or develop medical diagnostic or clinical instrumentation, equipment, or procedures, using the principles of engineering and biobehavioral sciences.
- Conduct research, along with life scientists, chemists, and medical scientists, on the engineering aspects of the biological systems of humans and animals.
- Adapt or design computer hardware or software for medical science uses.
- Maintain databases of experiment characteristics or results.
- Develop statistical models or simulations, using statistical or modeling software.
- Read current scientific or trade literature to stay abreast of scientific, industrial, or technological advances.
- Manage teams of engineers by creating schedules, tracking inventory, creating or using budgets, or overseeing contract obligations or deadlines.
- Develop models or computer simulations of human biobehavioral systems to obtain data for measuring or controlling life processes.
- Design or conduct follow-up experimentation, based on generated data, to meet established process objectives.
- Write documents describing protocols, policies, standards for use, maintenance, and repair of medical equipment.
- Communicate with bioregulatory authorities regarding licensing or compliance responsibilities.
- Develop methodologies for transferring procedures or biological processes from laboratories to commercial-scale manufacturing production.
- Collaborate with manufacturing or quality assurance staff to prepare product specification or safety sheets, standard operating procedures, user manuals, or qualification and validation reports.
- Research new materials to be used for products, such as implanted artificial organs.
- Prepare project plans for equipment or facility improvements, including time lines, budgetary estimates, or capital spending requests.
- Consult with chemists or biologists to develop or evaluate novel technologies.
- Confer with research and biomanufacturing personnel to ensure the compatibility of design and production.
- Recommend process formulas, instrumentation, or equipment specifications, based on results of bench or pilot experimentation.
- Communicate with suppliers regarding the design or specifications of bioproduction equipment, instrumentation, or materials.
- Conduct training or in-services to educate clinicians and other personnel on proper use of equipment.
- Advise hospital administrators on the planning, acquisition, and use of medical equipment.
- Analyze new medical procedures to forecast likely outcomes.
- Design and deliver technology, such as prosthetic devices, to assist people with disabilities.
- Advise manufacturing staff regarding problems with fermentation, filtration, or other bioproduction processes.
- Review existing manufacturing processes to identify opportunities for yield improvement or reduced process variation.
- Develop bioremediation processes to reduce pollution, protect the environment, or treat waste products.
- Lead studies to examine or recommend changes in process sequences or operation protocols.
- Design or direct bench or pilot production experiments to determine the scale of production methods that optimize product yield and minimize production costs.
