| A | B | C | D | E | F | G | H | I | J | K | L | M | N | O | P | Q | R | S | T | U | V | W | X | Y | Z | |
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1 | Year | Author | Title | |||||||||||||||||||||||
2 | 2013 | Koziolek et al. | A lightweight method (MORPHOSIS) | |||||||||||||||||||||||
3 | 2013 | Gu, Q., Lago, P., Muccini, H., Potenza, S | A Categorization of Green Practices Used by Dutch Data Centers. | |||||||||||||||||||||||
4 | 2018 | Isabel Sofia Brito | A concern-oriented sustainability approach | |||||||||||||||||||||||
5 | 2010 | Bahsoon | A Framework for Dynamic Self-optimization of Power and Dependability Requirements in Green Cloud Architectures | |||||||||||||||||||||||
6 | 2011 | Philipson | A Framework for Green Computing | |||||||||||||||||||||||
7 | 2013 | Penzenstadler | A generic model for sustainability with process- and product-specific instances | |||||||||||||||||||||||
8 | 2012 | Mahmoud, S.S., Ahmad, I. | A green model for sustainable software engineering. | |||||||||||||||||||||||
9 | 2013 | Chauhan, Sax- ena | A Green Software Development Life Cycle for Cloud Computing | |||||||||||||||||||||||
10 | 2011 | Jansen et al. | A method for assessing technology sustainability | |||||||||||||||||||||||
11 | 2013 | Corral et al. | A method for characterizing energy consumption in Android smartphones | |||||||||||||||||||||||
12 | 2019 | Nelly Condori-Fernandez, | A Nichesourcing Frame- work applied to Software Sustainability Requirements. In 2019 13th International Conference on Research Challenges in Information Science | |||||||||||||||||||||||
13 | 2012 | Noureddine et | A preliminary study of the impact of software engineering on GreenIT | |||||||||||||||||||||||
14 | 2013 | Roher, Richard- son | A proposed recommender system for eliciting software sustainability re- quirements | |||||||||||||||||||||||
15 | 2021 | Diogo Albuquerque, Ana Moreira | A sustainability requirements catalog for the social and technical dimensions. | |||||||||||||||||||||||
16 | Sedef Akinli Kocak and Gulfem Isiklar Alptekin | A Utility Model for Designing Environmentally Sustain- able Software | ||||||||||||||||||||||||
17 | 2020 | Theresia Ratih Dewi | Addressing sustainability in the requirements engineer- ing process: From elicitation to functional decomposi- tion | |||||||||||||||||||||||
18 | 2014 | Chen, F., Schneider | An Energy Consumption Model and Analysis Tool for Cloud Computing Environments. In: Proceedings of the First International Workshop on Green and Sustainable Software | |||||||||||||||||||||||
19 | 2019 | Theresia Ratih Dewi | Analyzing Trade-offs for Sustainability Requirements: A Decision-Making Process | |||||||||||||||||||||||
20 | 2011 | Maharmeh, Saeed | Application of a composite process framework for managing green ICT applications development | |||||||||||||||||||||||
21 | 2012 | Gotz et al. | Approximating quality contracts for energy auto-tuning software | |||||||||||||||||||||||
22 | 2013 | Chen, Kazman | Architecting ultra-large-scale green information systems | |||||||||||||||||||||||
23 | 2011 | Sasikala | Architectural strategies for green cloud computing: environments, infras- tructure and resources | |||||||||||||||||||||||
24 | 2011 | Ramaiya et al. | Architecture, design and development of a green ICT system | |||||||||||||||||||||||
25 | 2013 | Naumann | Classifying Green Software Engineering - The GREENSOFT Model. | |||||||||||||||||||||||
26 | 2009 | Geist et al. | computer science challenges at exascale | |||||||||||||||||||||||
27 | 2011 | Lago, Jansen | Creating Environmental Awareness in Service Oriented Software Engineer- ing | |||||||||||||||||||||||
28 | 2018 | Norbert Seyff, Stefanie Betz | Crowd- Focused Semi-Automated Requirements Engineering for Evolution Toward Sustainability | |||||||||||||||||||||||
29 | 2006 | Hornbaek | Current practice in measuring usability | |||||||||||||||||||||||
30 | 2007 | Cushing et al. | database design for ecologists | |||||||||||||||||||||||
31 | 2007 | McIntosh et al. | database design for ecologists including observation data | |||||||||||||||||||||||
32 | 2014 | Raturi A, Penzenstadler | Developing a sustainability non-functional requirements frame- work | |||||||||||||||||||||||
33 | 2018 | Nelly Condori-Fernandez | Discovering requirements of behavior change software systems from negative user experience | |||||||||||||||||||||||
34 | 2011 | Mauhaux et al. | Discovering Sustainability Requirements: An Experience Report | |||||||||||||||||||||||
35 | Rui Carvalho | Discussion Toward a Library of Soft- ware Sustainability Requirements | ||||||||||||||||||||||||
36 | 2019 | Leticia Duboc | Do we Really Know What we are Building? Raising Awareness of Potential Sustainability Effects of Software Systems in Requirements Engineering | |||||||||||||||||||||||
37 | 2006 | Rizzo et al. | dynamic systems-based software packages for ecological systems | |||||||||||||||||||||||
38 | 2016 | Cushing et al. | eco-informatics and natural resource management | |||||||||||||||||||||||
39 | 2013 | Grosskop, Visser | Energy Efficiency Optimization of Application Software | |||||||||||||||||||||||
40 | 2016 | Maryam Al Hinai | Engi- neering Requirements for Social Sustainability | |||||||||||||||||||||||
41 | 2013 | Bouwers et al. | Evaluating usefulness of software metrics | |||||||||||||||||||||||
42 | 2015 | Ruzanna Chitchyan | Evidencing sustainability design through examples | |||||||||||||||||||||||
43 | 2020 | Penzenstadler | Experiences from Applying the Karlskrona Manifesto Principles for Sus- tainability in Software System Design | |||||||||||||||||||||||
44 | 2013 | Lago et al. | Exploring initial challenges for green software engineering | |||||||||||||||||||||||
45 | 2013 | Lago, P., Kazman, R., Meyer, N., Morisio, M., Müller, | Exploring Initial Challenges for Green Software Engineering: Summary of the First GREENS Workshop | |||||||||||||||||||||||
46 | 2015 | Penzenstadler | From Requirements Engineer- ing to Green Requirements Engineering | |||||||||||||||||||||||
47 | David Stefan, Emmanuel Letier | Goal-Oriented System Modeling for Managing Environ- mental Sustainability | ||||||||||||||||||||||||
48 | 2011 | Taina | Good, bad, and beautiful software-in search of green software quality fac- tors | |||||||||||||||||||||||
49 | 2012 | Ardito, L., Morisio, M | Green IT – Available data and guidelines for reducing energy consumption in IT systems | |||||||||||||||||||||||
50 | 2012 | Hindle | Green mining: Investigating power consumption across versions | |||||||||||||||||||||||
51 | 2013 | Ferreira et al. | Green Performance Indicators Aggregation through Composed Weighting System | |||||||||||||||||||||||
52 | 2010 | Smith et al. | green product design through product modularization using atomic theory | |||||||||||||||||||||||
53 | 2010 | Sissa | Green Software | |||||||||||||||||||||||
54 | 2013 | Kern et al. | Green Software and Green Software Engineering – Definitions, Measure- ments, and Quality Aspects | |||||||||||||||||||||||
55 | 2012 | Kocak | Green software development and design for environmental sustainability | |||||||||||||||||||||||
56 | 2011 | Shenoy, Eeratta | Green software development model: An approach towards sustainable soft- ware development | |||||||||||||||||||||||
57 | 2011 | Shenoy et al. | Green software development model: an approach towards sustainable software | |||||||||||||||||||||||
58 | 2016 | Jannat UK | Green software engineering adaption in requirement elicitation process | |||||||||||||||||||||||
59 | 2013 | Dick et al. | Green software engineering with agile methods | |||||||||||||||||||||||
60 | Christophe Ponsard, Raphael Michel | Guiding Cloud Application Developers toward a Balanced Design Trade-off among Energy Impacting Requirements2 | ||||||||||||||||||||||||
61 | 2016 | Christophe Ponsard | Guiding Cloud Developers to Build Energy Aware Applications | |||||||||||||||||||||||
62 | 2012 | Johann et al. | How to measure energy-efficiency of software: Metrics and measurement results | |||||||||||||||||||||||
63 | 2013 | Grosskop, Visser | Identification of Application-Level Energy-Optimizations | |||||||||||||||||||||||
64 | 2016 | Theresia Ratih Dewi Saputri | Incorporating Sustainability Design in Requirements Engineering Process: A Preliminary Study. | |||||||||||||||||||||||
65 | 2010 | Scheller et al. | increasing the reliability of ecological models using SE techniques | |||||||||||||||||||||||
66 | 2018 | Nelly Condori Fernandez | Influence of Green Strategies Design onto Quality Requirements Prioritization | |||||||||||||||||||||||
67 | 2014 | Penzenstadler | Infusing Green: Requirements Engineering for Green In and Through Software Sys- tems | |||||||||||||||||||||||
68 | 2013 | Sahin et al. | Initial explorations on design pattern energy usage | |||||||||||||||||||||||
69 | 2020 | Theresia Ratih Dewi Saputri | Integrated framework for incorporating sustainability design in software engineering life-cycle: An empiri- cal study | |||||||||||||||||||||||
70 | Jean-Christophe Deprez, Ravi Ramdoyal | Integrating Energy and Eco-Aware Requirements Engineering in the Development of Ser- vices-Based Applications on Virtual Clouds | ||||||||||||||||||||||||
71 | 2015 | Kocak | Integrating environmental sustainability in software product quality | |||||||||||||||||||||||
72 | 2009 | Cabot et al. | Integrating sustainability in decision-making processes: A modelling strat- egy | |||||||||||||||||||||||
73 | 2013 | Mahaux et al. | Integrating the complexity of sustainability in requirements engineering | |||||||||||||||||||||||
74 | 2012 | Capra et al. | Is software green? Application development environments and energy ef- ficiency in open source applications | |||||||||||||||||||||||
75 | 2010 | Verweij et al. | IT perspective on integrated environmental modeling | |||||||||||||||||||||||
76 | 2018 | Penzenstadler | Karlskrona Manifesto: Software Requirement Engineering Good Practices | |||||||||||||||||||||||
77 | 2013 | Koziolek et al | Measuring architecture sustainability | |||||||||||||||||||||||
78 | 2012 | Lami, Buglioni | Measuring Software Sustainability From a Process-Centric Perspective | |||||||||||||||||||||||
79 | 2009 | Rachuri et al. | Metric standard and industry best practices for sustainable manufacturing system | |||||||||||||||||||||||
80 | 2016 | Jose M. Conejero | Modeling the Impact of UAVs in Sustainability | |||||||||||||||||||||||
81 | 2011 | Atkinson et al. | Modelling as a Service (MaaS): Minimizing the Environmental Impact of Computing Services | |||||||||||||||||||||||
82 | 2012 | Penzenstadler | owards a Definition of Sustainability in and for Software Engineering. | |||||||||||||||||||||||
83 | 2013 | Bokhoven, Bloem | Pilot Result Monitoring Energy Usage by Software Slides | |||||||||||||||||||||||
84 | 2012 | Weiss et al. | Preseverence in sustainable software architecting | |||||||||||||||||||||||
85 | 2012 | Schubert et al. | Profiling Software for Energy Consumption | |||||||||||||||||||||||
86 | Koziolek et al. | Quality of Service Oriented software system | ||||||||||||||||||||||||
87 | 2010 | Naumann et al. | reference model for green and sustainable software and its engineering | |||||||||||||||||||||||
88 | 2007 | Boose et al. | reliable datasets for environmental models with an analytic web | |||||||||||||||||||||||
89 | 2013 | Penzenstadler | Requirement engineering for sustainable system | |||||||||||||||||||||||
90 | 2020 | Leticia Duboc, Birgit Penzenstadler | Requirements engineering for sustainability: an aware- ness framework for designing software systems for a bet- ter tomorrow | |||||||||||||||||||||||
91 | Giovanna Gonzales Calienes | Requirements Pri- oritization Framework for developing Green and Sustainable Software using ANP-based Decision Making | ||||||||||||||||||||||||
92 | 2015 | G. Rodriguez-Navas | Safety vs. sustainability design: Analogies, differ- ences and potential synergies | |||||||||||||||||||||||
93 | 2010 | Easterbrook et al. | Second International Workshop on Software Research and Climate Change | |||||||||||||||||||||||
94 | 2020 | Yen Dieu Pham | ShapeRE: Toward a Multi-Dimensional Representation for Requirements of Sustainable Software | |||||||||||||||||||||||
95 | Johan et al. | Social dimension of sustainability | ||||||||||||||||||||||||
96 | 2013 | Fakhar et al. | Software level green computing for large scale systems | |||||||||||||||||||||||
97 | 2020 | Manal Kharbouch | Software Requirement Catalog on Acceptability, Usability, Internationalization and Sustainability for Contraception | |||||||||||||||||||||||
98 | 2012 | Venters, | Software Sustainability: The Modern Tower of Babel | |||||||||||||||||||||||
99 | 2013 | Davor Svetinovic | Strategic requirements engineer- ing for complex sustainable systems | |||||||||||||||||||||||
100 | 2013 | Sventinovic | Strategic requirements engineering for complex sustainable systems |