ICT4S2018. 5th International Conference on Information and Communication Technology for Sustainability26 articles•409 pages•Published: May 10, 2018 PapersPages 1-19 | Pages 20-36 | Pages 37-48 | Pages 49-67 | Pages 68-81 | Pages 82-99 | Pages 100-111 | Pages 112-124 | Pages 125-136 | Pages 137-152 | Pages 153-167 | Pages 168-186 | Pages 187-208 | Pages 209-226 | Pages 227-242 | Pages 243-257 | Pages 258-269 | Pages 270-288 | Pages 289-300 | Pages 301-315 | Pages 316-331 | Pages 332-349 | Pages 350-364 | Pages 365-383 | Pages 384-397 | Pages 398-409 |
KeyphrasesAaaS, Abiotic depletion potential, Accessibility as a Service, air pollution, Ambient Information Display, autonomous driving, benchmark, car sharing, carbon footprint, case study2, circular economy2, citizen science, civic technology, Cleantech, Cleanweb, climate change, climate impact, code smells, comparative analysis, consumer behaviour, CSA, data center, data demand, data visualization, database, dataset, decision support2, design for Attachment, design mockups, digital access, Digitalization, Domestic energy, E&M sector2, Empirical Experiment, energy consumption2, energy efficiency3, Energy footprint, energy monitoring, environmental impact, Environmental Impact Assessment, Environmental Sustainability, equality requirements, equality templates, everyday life, farming, food, Footprint of Things, freight, GHG abatement potential, Good Practices, Grassroots movements facilitated by ICT, Green ICT, Green Metrics, Greenhouse gas emissions, GreenIT, Grocery stores, ICT4, ICT sector2, ICT sustainability, ICT4S3, Information and Communication Technology, Innovation Alliances, Internet of Things, kerb side optimisation, last mile logistics, LES model, Life Cycle Assessment3, life cycle inventory, limits, Logistics, MaaS, maker movement, Mann-Bates maturing scale, Material carbon footprint, Material ecosystem toxicity potential, Material footprint, Material human toxicity potential, Material resource depletion potential, Maturity, Maturity Model, Media sector2, mobile access networks, Mobility as a Service, network services, non-use, NoSQL, Optimization, parcel demand, parcel sector, participation, Persuasive services, policy makers, policymakers, qualitative content analysis, RDBMS, reduced Internet connectivity, refactoring, reflection2, renewable energy, Requirements Engineering, requirements pattern, research through design, resource efficiency, Road and Transport, Shared autonomous vehicles, sharing economy, slow values, Smart Cities, smart-green, social media, social sustainability, software feature interaction, Spreng's Triangle, stakeholder engagement, Stakeholders, Sustainability5, Sustainable community building via ICT, Sustainable Development Goals, Sustainable HCI, Sustainable ICT, Sustainable Interaction Design, sustainable mobility2, Technology Enhanced Learning, technology use, Traffic Engineering, Traffic Simulator, Transformation Mindset, transparency, travel mode choice, undesign, urban mobility, use case, waste management practices |
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