| a |
| AaaS | AaaS and MaaS for reduced environmental and climate impact of transport |
| Abiotic depletion potential | A high-level estimate of the material footprints of the ICT and the E&M sector |
| Accessibility as a Service | AaaS and MaaS for reduced environmental and climate impact of transport |
| air pollution | ICT for Sustainable Last-Mile Logistics: Data, People and Parcels |
| Ambient Information Display | Indoor temperature awareness using an Ambient Information Display - a semi-longitudinal study of one household |
| autonomous driving | Shared Autonomous Vehicles: Potentials for a Sustainable Mobility and Risks of Unintended Effects |
| b |
| benchmark | Data Storage and Maintenance Challenges: The Case of Advanced Metering Infrastructure Systems |
| c |
| car sharing | Shared Autonomous Vehicles: Potentials for a Sustainable Mobility and Risks of Unintended Effects |
| carbon footprint | The energy and carbon footprint of the global ICT and E&M sectors 2010 - 2015 |
| case study | ICT for Sustainable Last-Mile Logistics: Data, People and Parcels
"Sustainability... it's just not important." - The Challenges of Academic Engagement with Diverse Stakeholders |
| circular economy | Towards a sustainable business model for smartphones: Combining product-service systems with modularity
ICT for Sustainability Beyond Efficiency: Pushing Cleantech and the Circular Economy |
| citizen science | Shut up and take my environmental data! A study on ICT enabled citizen science practices, participation approaches and challenges |
| civic technology | Shut up and take my environmental data! A study on ICT enabled citizen science practices, participation approaches and challenges |
| Cleantech | ICT for Sustainability Beyond Efficiency: Pushing Cleantech and the Circular Economy |
| Cleanweb | ICT for Sustainability Beyond Efficiency: Pushing Cleantech and the Circular Economy |
| climate change | Indirect Effects of the Digital Transformation on Environmental Sustainability: Methodological Challenges in Assessing the Greenhouse Gas Abatement Potential of ICT |
| climate impact | AaaS and MaaS for reduced environmental and climate impact of transport |
| code smells | Empirical Evaluation of the Energy Impact of Refactoring Code Smells |
| comparative analysis | A Comparative Analysis of Green ICT Maturity Models |
| consumer behaviour | Energy consumption of mobile data transfer – Increasing or decreasing? Evaluating the impact of technology development & user behavior |
| CSA | Transparent Farmers: how farmers are using technology for new ways of selling and communicating with consumers |
| d |
| data center | Innovation alliances for sustainable ICT - Good practices and success factors, using the example of initiatives to improve the energy efficiency of data centers |
| data demand | "Sustainability... it's just not important." - The Challenges of Academic Engagement with Diverse Stakeholders |
| data visualization | Barriers for sustainable waste management practices in grocery stores. Exploration by Research-through-Design |
| database | An Empirical Evaluation of Database Software Features on Energy Consumption |
| dataset | Data Storage and Maintenance Challenges: The Case of Advanced Metering Infrastructure Systems |
| decision support | ICT for Sustainable Last-Mile Logistics: Data, People and Parcels
"Sustainability... it's just not important." - The Challenges of Academic Engagement with Diverse Stakeholders |
| design for Attachment | Towards a sustainable business model for smartphones: Combining product-service systems with modularity |
| design mockups | Barriers for sustainable waste management practices in grocery stores. Exploration by Research-through-Design |
| digital access | AaaS and MaaS for reduced environmental and climate impact of transport |
| Digitalization | Indirect Effects of the Digital Transformation on Environmental Sustainability: Methodological Challenges in Assessing the Greenhouse Gas Abatement Potential of ICT |
| Domestic energy | "Sustainability... it's just not important." - The Challenges of Academic Engagement with Diverse Stakeholders |
| e |
| E&M sector | A high-level estimate of the material footprints of the ICT and the E&M sector
The energy and carbon footprint of the global ICT and E&M sectors 2010 - 2015 |
| Empirical Experiment | Empirical Evaluation of the Energy Impact of Refactoring Code Smells |
| energy consumption | An Empirical Evaluation of Database Software Features on Energy Consumption
Energy consumption of mobile data transfer – Increasing or decreasing? Evaluating the impact of technology development & user behavior |
| energy efficiency | An Empirical Evaluation of Database Software Features on Energy Consumption
Innovation alliances for sustainable ICT - Good practices and success factors, using the example of initiatives to improve the energy efficiency of data centers
Empirical Evaluation of the Energy Impact of Refactoring Code Smells |
| Energy footprint | The energy and carbon footprint of the global ICT and E&M sectors 2010 - 2015 |
| energy monitoring | Data Storage and Maintenance Challenges: The Case of Advanced Metering Infrastructure Systems |
| environmental impact | Towards a sustainable business model for smartphones: Combining product-service systems with modularity |
| Environmental Impact Assessment | Indirect Effects of the Digital Transformation on Environmental Sustainability: Methodological Challenges in Assessing the Greenhouse Gas Abatement Potential of ICT |
| Environmental Sustainability | An Empirical Evaluation of Database Software Features on Energy Consumption |
| equality requirements | Evaluating Equality Requirements for Software Systems |
| equality templates | Evaluating Equality Requirements for Software Systems |
| everyday life | Undesigning the Internet: An exploratory study of reducing everyday Internet connectivity |
| f |
| farming | Transparent Farmers: how farmers are using technology for new ways of selling and communicating with consumers |
| food | Transparent Farmers: how farmers are using technology for new ways of selling and communicating with consumers |
| Footprint of Things | The Footprint of Things: A hybrid approach towards the collection, storage and distribution of life cycle inventory data |
| freight | ICT for Sustainable Last-Mile Logistics: Data, People and Parcels |
| g |
| GHG abatement potential | Indirect Effects of the Digital Transformation on Environmental Sustainability: Methodological Challenges in Assessing the Greenhouse Gas Abatement Potential of ICT |
| Good Practices | Innovation alliances for sustainable ICT - Good practices and success factors, using the example of initiatives to improve the energy efficiency of data centers |
| Grassroots movements facilitated by ICT | The maker movement in Europe: empirical and theoretical insights into sustainability |
| Green ICT | A Comparative Analysis of Green ICT Maturity Models |
| Green Metrics | An Empirical Evaluation of Database Software Features on Energy Consumption |
| Greenhouse gas emissions | Indirect Effects of the Digital Transformation on Environmental Sustainability: Methodological Challenges in Assessing the Greenhouse Gas Abatement Potential of ICT |
| GreenIT | Innovation alliances for sustainable ICT - Good practices and success factors, using the example of initiatives to improve the energy efficiency of data centers |
| Grocery stores | Barriers for sustainable waste management practices in grocery stores. Exploration by Research-through-Design |
| i |
| ICT | A high-level estimate of the material footprints of the ICT and the E&M sector
The energy and carbon footprint of the global ICT and E&M sectors 2010 - 2015
Shut up and take my environmental data! A study on ICT enabled citizen science practices, participation approaches and challenges
Energy consumption of mobile data transfer – Increasing or decreasing? Evaluating the impact of technology development & user behavior |
| ICT sector | A high-level estimate of the material footprints of the ICT and the E&M sector
The energy and carbon footprint of the global ICT and E&M sectors 2010 - 2015 |
| ICT sustainability | A Comparative Analysis of Green ICT Maturity Models |
| ICT4S | Envisioning a Community Exemplar for Sustainability in and by ICT
Shifting the maturity needle of ICT for Sustainability
ICT for Sustainability Beyond Efficiency: Pushing Cleantech and the Circular Economy |
| Information and Communication Technology | Indirect Effects of the Digital Transformation on Environmental Sustainability: Methodological Challenges in Assessing the Greenhouse Gas Abatement Potential of ICT |
| Innovation Alliances | Innovation alliances for sustainable ICT - Good practices and success factors, using the example of initiatives to improve the energy efficiency of data centers |
| Internet of Things | The Footprint of Things: A hybrid approach towards the collection, storage and distribution of life cycle inventory data |
| k |
| kerb side optimisation | ICT for Sustainable Last-Mile Logistics: Data, People and Parcels |
| l |
| last mile logistics | ICT for Sustainable Last-Mile Logistics: Data, People and Parcels |
| LES model | ICT for Sustainability Beyond Efficiency: Pushing Cleantech and the Circular Economy |
| Life Cycle Assessment | Towards a sustainable business model for smartphones: Combining product-service systems with modularity
Energy consumption of mobile data transfer – Increasing or decreasing? Evaluating the impact of technology development & user behavior
The Footprint of Things: A hybrid approach towards the collection, storage and distribution of life cycle inventory data |
| life cycle inventory | The Footprint of Things: A hybrid approach towards the collection, storage and distribution of life cycle inventory data |
| limits | Undesigning the Internet: An exploratory study of reducing everyday Internet connectivity |
| Logistics | ICT for Sustainable Last-Mile Logistics: Data, People and Parcels |
| m |
| MaaS | AaaS and MaaS for reduced environmental and climate impact of transport |
| maker movement | The maker movement in Europe: empirical and theoretical insights into sustainability |
| Mann-Bates maturing scale | Shifting the maturity needle of ICT for Sustainability |
| Material carbon footprint | A high-level estimate of the material footprints of the ICT and the E&M sector |
| Material ecosystem toxicity potential | A high-level estimate of the material footprints of the ICT and the E&M sector |
| Material footprint | A high-level estimate of the material footprints of the ICT and the E&M sector |
| Material human toxicity potential | A high-level estimate of the material footprints of the ICT and the E&M sector |
| Material resource depletion potential | A high-level estimate of the material footprints of the ICT and the E&M sector |
| Maturity | Shifting the maturity needle of ICT for Sustainability |
| Maturity Model | A Comparative Analysis of Green ICT Maturity Models |
| Media sector | A high-level estimate of the material footprints of the ICT and the E&M sector
The energy and carbon footprint of the global ICT and E&M sectors 2010 - 2015 |
| mobile access networks | Energy consumption of mobile data transfer – Increasing or decreasing? Evaluating the impact of technology development & user behavior |
| Mobility as a Service | AaaS and MaaS for reduced environmental and climate impact of transport |
| n |
| network services | "Sustainability... it's just not important." - The Challenges of Academic Engagement with Diverse Stakeholders |
| non-use | Undesigning the Internet: An exploratory study of reducing everyday Internet connectivity |
| NoSQL | Data Storage and Maintenance Challenges: The Case of Advanced Metering Infrastructure Systems |
| o |
| Optimization | ICT for Sustainability Beyond Efficiency: Pushing Cleantech and the Circular Economy |
| p |
| parcel demand | ICT for Sustainable Last-Mile Logistics: Data, People and Parcels |
| parcel sector | ICT for Sustainable Last-Mile Logistics: Data, People and Parcels |
| participation | Shut up and take my environmental data! A study on ICT enabled citizen science practices, participation approaches and challenges |
| Persuasive services | Indoor temperature awareness using an Ambient Information Display - a semi-longitudinal study of one household |
| policy makers | ICT for Sustainable Last-Mile Logistics: Data, People and Parcels |
| policymakers | "Sustainability... it's just not important." - The Challenges of Academic Engagement with Diverse Stakeholders |
| q |
| qualitative content analysis | A Comparative Analysis of Green ICT Maturity Models |
| r |
| RDBMS | Data Storage and Maintenance Challenges: The Case of Advanced Metering Infrastructure Systems |
| reduced Internet connectivity | Undesigning the Internet: An exploratory study of reducing everyday Internet connectivity |
| refactoring | Empirical Evaluation of the Energy Impact of Refactoring Code Smells |
| reflection | Shifting the maturity needle of ICT for Sustainability
"Sustainability... it's just not important." - The Challenges of Academic Engagement with Diverse Stakeholders |
| renewable energy | ICT for Sustainability Beyond Efficiency: Pushing Cleantech and the Circular Economy |
| Requirements Engineering | Evaluating Equality Requirements for Software Systems |
| requirements pattern | Evaluating Equality Requirements for Software Systems |
| research through design | Barriers for sustainable waste management practices in grocery stores. Exploration by Research-through-Design |
| resource efficiency | ICT for Sustainability Beyond Efficiency: Pushing Cleantech and the Circular Economy |
| Road and Transport | Towards Simulating Non-lane Based Heterogeneous Road Traffic of Less Developed Countries |
| s |
| Shared autonomous vehicles | Shared Autonomous Vehicles: Potentials for a Sustainable Mobility and Risks of Unintended Effects |
| sharing economy | ICT for Sustainability Beyond Efficiency: Pushing Cleantech and the Circular Economy |
| slow values | Undesigning the Internet: An exploratory study of reducing everyday Internet connectivity |
| Smart Cities | ICT for Sustainable Last-Mile Logistics: Data, People and Parcels |
| smart-green | ICT for Sustainability Beyond Efficiency: Pushing Cleantech and the Circular Economy |
| social media | Transparent Farmers: how farmers are using technology for new ways of selling and communicating with consumers |
| social sustainability | Evaluating Equality Requirements for Software Systems |
| software feature interaction | An Empirical Evaluation of Database Software Features on Energy Consumption |
| Spreng's Triangle | ICT for Sustainability Beyond Efficiency: Pushing Cleantech and the Circular Economy |
| stakeholder engagement | ICT for Sustainable Last-Mile Logistics: Data, People and Parcels |
| Stakeholders | "Sustainability... it's just not important." - The Challenges of Academic Engagement with Diverse Stakeholders |
| Sustainability | ICT for Sustainable Last-Mile Logistics: Data, People and Parcels
Envisioning a Community Exemplar for Sustainability in and by ICT
Shifting the maturity needle of ICT for Sustainability
"Sustainability... it's just not important." - The Challenges of Academic Engagement with Diverse Stakeholders
Undesigning the Internet: An exploratory study of reducing everyday Internet connectivity |
| Sustainable community building via ICT | The maker movement in Europe: empirical and theoretical insights into sustainability |
| Sustainable Development Goals | Towards a sustainable business model for smartphones: Combining product-service systems with modularity |
| Sustainable HCI | Indoor temperature awareness using an Ambient Information Display - a semi-longitudinal study of one household |
| Sustainable ICT | Innovation alliances for sustainable ICT - Good practices and success factors, using the example of initiatives to improve the energy efficiency of data centers |
| Sustainable Interaction Design | "Sustainability... it's just not important." - The Challenges of Academic Engagement with Diverse Stakeholders |
| sustainable mobility | AaaS and MaaS for reduced environmental and climate impact of transport
Shared Autonomous Vehicles: Potentials for a Sustainable Mobility and Risks of Unintended Effects |
| t |
| Technology Enhanced Learning | Indoor temperature awareness using an Ambient Information Display - a semi-longitudinal study of one household |
| technology use | Shut up and take my environmental data! A study on ICT enabled citizen science practices, participation approaches and challenges |
| Traffic Engineering | Towards Simulating Non-lane Based Heterogeneous Road Traffic of Less Developed Countries |
| Traffic Simulator | Towards Simulating Non-lane Based Heterogeneous Road Traffic of Less Developed Countries |
| Transformation Mindset | Shifting the maturity needle of ICT for Sustainability |
| transparency | Transparent Farmers: how farmers are using technology for new ways of selling and communicating with consumers |
| travel mode choice | Shared Autonomous Vehicles: Potentials for a Sustainable Mobility and Risks of Unintended Effects |
| u |
| undesign | Undesigning the Internet: An exploratory study of reducing everyday Internet connectivity |
| urban mobility | AaaS and MaaS for reduced environmental and climate impact of transport |
| use case | Envisioning a Community Exemplar for Sustainability in and by ICT |
| w |
| waste management practices | Barriers for sustainable waste management practices in grocery stores. Exploration by Research-through-Design |
