Activity-Oriented Sustainability Method

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Activity-Oriented Sustainability Method by Mind Map: Activity-Oriented Sustainability Method

1. Projects' core activities (method steps 3-5)

1.1. Research project 1

1.1.1. Core activities

1.1.1.1. Collection of used EVBs

1.1.1.2. EVB testing (condition/performance)

1.1.1.2.1. Economic

1.1.1.2.2. Social

1.1.1.2.3. Ecological

1.1.1.3. Handle scenario request

1.1.1.3.1. Economic

1.1.1.3.2. Social

1.1.1.3.3. Ecological

1.1.1.4. Decision-making: Assign EVB to second life

1.1.1.4.1. Economic

1.1.1.4.2. Social

1.1.1.4.3. Ecological

1.1.1.5. Decision-making: Assign second life to EVBs

1.1.1.5.1. Economic

1.1.1.5.2. Social

1.1.1.5.3. Ecological

1.1.1.6. Transportation to disposition

1.1.1.6.1. Mine raw materials

1.1.1.6.2. Produce EVBs

1.1.1.6.3. Use EVB

1.1.1.6.4. Collect used EVBs

1.1.1.6.5. Decision-making

1.1.1.6.6. Reconfigure EVB

1.1.1.6.7. Transportation to disposition

1.1.1.6.8. Reuse EVB

1.1.1.6.9. Recycle EVB

1.1.1.7. Reconfigure EVB

1.1.1.7.1. Economic

1.1.1.7.2. Social

1.1.1.7.3. Ecological

1.1.1.8. Reprocessing of (defective) EVBs

1.1.1.9. Engineering of product service system

1.1.1.9.1. Economic

1.1.1.9.2. Social

1.1.1.9.3. Ecological

1.2. Research project 2

1.2.1. Core activities

1.2.1.1. Data import from search portals

1.2.1.2. Data export to search portals

1.2.1.3. Charging station selection process

1.2.1.4. User registration

1.2.1.5. Register charging station

1.2.1.5.1. Economic

1.2.1.5.2. Social

1.2.1.5.3. Ecological

1.2.1.5.4. Supply Chain Activities

1.2.1.6. User authentication

1.2.1.7. Charging procedure

1.2.1.8. Data transmission to CS

1.2.1.9. Partner registration

1.2.1.9.1. Special partner-related processes

1.2.1.10. User profile management

1.2.1.11. Provider profile management

1.2.1.12. Biling procedure

1.2.1.12.1. Social

1.2.1.12.2. Economic

1.2.1.12.3. Ecologic

2. Dimensions

2.1. Economic

2.1.1. Economic (domain-specific)

2.1.1.1. Competitiveness against combustion engine vehicles

2.1.1.1.1. TCO (of EV vs gas-operated vehicle)

2.1.1.2. Scarcity of Ressources

2.1.1.2.1. Lithium

2.1.1.2.2. Nickel

2.1.1.2.3. Cobalt

2.1.1.2.4. Crude Oil

2.1.1.2.5. Sun

2.1.1.2.6. Wind

2.1.1.2.7. Water

2.1.2. Economic (general)

2.1.2.1. Profitability

2.1.2.2. Competitevness

2.1.2.3. Scarcity of resources

2.2. Social

2.2.1. Social (domain-specific)

2.2.1.1. Qualification

2.2.1.1.1. Bachelor

2.2.1.1.2. Master

2.2.1.1.3. PhD

2.2.1.2. Industrial safety

2.2.1.2.1. "Hochvoltschein"

2.2.2. Social (general)

2.2.2.1. Workload

2.2.2.2. Time

2.2.2.3. Qualification

2.2.2.4. Industrial safety

2.2.2.5. Impact on Other

2.3. Ecological

2.3.1. Ecological (domain-specific)

2.3.1.1. Production of Raw Materials

2.3.1.1.1. Lithium

2.3.1.1.2. Cobalt

2.3.1.1.3. Nickel

2.3.1.1.4. Titante

2.3.1.1.5. Copper

2.3.1.1.6. Aluminium

2.3.1.1.7. Steel

2.3.1.2. Energy Consumption

2.3.1.3. Energy Production

2.3.1.4. Plastics

2.3.1.5. Toxic Waste

2.3.1.6. Emissions

2.3.1.6.1. Noise

2.3.1.6.2. Dust

2.3.1.6.3. Fine Dust

2.3.1.6.4. Carbon emission/footprint

2.3.2. Ecological (general)

2.3.2.1. Emissions

2.3.2.2. Toxic Waste

2.3.2.3. Plastics

2.3.2.4. Energy Production

2.3.2.5. Energy Consumption

2.3.2.6. Production of Raw Materials

3. Domain's main activities (method steps 1-2)

3.1. Core activities

3.1.1. Maintain vehicles

3.1.1.1. Social

3.1.1.2. Ecologic

3.1.1.3. Economic

3.1.1.3.1. Profitability

3.1.2. Recycle / Repurpose vehicles

3.1.2.1. Social

3.1.2.1.1. Qualification

3.1.2.1.2. Industrial Safety

3.1.2.2. Ecologic

3.1.2.2.1. Reuse of materials

3.1.2.3. Economic

3.1.2.3.1. Scarcity of Ressources

3.1.2.3.2. Profitability

3.1.3. Use vehicles

3.1.3.1. Social

3.1.3.1.1. promotion of sustainable mobility

3.1.3.2. Ecologic

3.1.3.2.1. CO2 emissions

3.1.3.2.2. fine dust emissions

3.1.3.2.3. noise

3.1.3.3. Economic

3.1.3.3.1. mobiity

3.1.3.3.2. purchae price

3.1.4. Charge vehicles

3.1.4.1. Social

3.1.4.1.1. personal interaction

3.1.4.1.2. societal dependency

3.1.4.2. Ecologic

3.1.4.2.1. Resource use

3.1.4.2.2. energy consumption

3.1.4.3. Economic

3.1.4.3.1. Competitiveness of prices

3.1.5. Distribute vehicles

3.1.5.1. Social

3.1.5.1.1. marketing ethics

3.1.5.1.2. deception

3.1.5.2. Ecologic

3.1.5.2.1. transportation

3.1.5.2.2. storage

3.1.5.3. Economic

3.1.6. Produce energy

3.1.6.1. Social

3.1.6.1.1. labor / jobs

3.1.6.1.2. need to move out

3.1.6.1.3. disturbance

3.1.6.2. Ecologic

3.1.6.2.1. energy sources

3.1.6.3. Economic

3.1.6.3.1. profitability

3.1.6.3.2. scarcity of resources

3.1.7. Manufacture vehicle

3.1.7.1. Social

3.1.7.2. Ecologic

3.1.7.3. Economic

3.1.7.3.1. Profitability

4. Design choices (method step 6)

4.1. Research project 1

4.1.1. Transportation of EVB

4.1.1.1. (i) Digital step-by-step operating plans

4.1.1.2. (ii) Required resource assignment

4.1.1.3. (iii) Holistic route planning component

4.2. Research project 2

4.2.1. Register charging station

4.2.1.1. (i) Specification of the conditions with the energy provider’s contract

4.2.1.2. (ii) Algorithms for price recommendation and price control